Datasets:

bhlim

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patentmatch_for_finetuning

like 1

The method of claim 14 wherein the chassis has an opening formed there through and at least some of the recesses are positioned about the opening and in flowing plastic into the mold at least some of the plastic flows into the opening.

The following is a description made primarily with reference to FIG.6 of the device configuration and assembly method for the bottom casing of the portable device accordingto the present embodiment.A flexible circuit board 300 for key switches is mounted on the resin shell 200 that is integrally molded with the boxshaped metal structure 100.Specifically the wires 301 of the flexible circuit board 300 are passed through the wire hole 103 of the metal structure 100 to bond the flexible circuit board 300 to the switchreceiving surface 101 of the metal structure 100.Dome switches 302 and LED Light Emitting Diode backlights 303 are mounted on the flexible circuit board 300.Furthermore a key sheet unit 400 is attached over the flexible circuit board 300.The key sheet unit 400 is attached to a key attachment surface 108 rather than the switchreceiving surface 101.This makes it possible to prevent water droplets from entering from above.In the present embodiment LED backlights 303 are used but another possibility is to use EL Electroluminescence backlights instead of LED backlights.In this case either the EL backlights are installed in the key sheet unit 400 or the EL backlights are inserted between the key sheet unit 400 and the flexible circuit board 300.

An apparatus according to any preceding claim wherein the upper layer comprises an application layer.

According to an optional next box 570 the tag and the bandwidth are encoded in a reservation request frame.The reservation request frame need not be specific to any type of a network layer of the access point.In other words it may be 3rd layer independent or 3rd layer agnostic.

An electrical connector according to claim 1 characterized inthat the holding member 1617 is made of metallic material to have a board connecting portion 2938 provided for extending from the base portion 2131 to the outside of the housing 11 to be soldered to a conductive portion provided on the solid circuit board on which the housing 11 is mounted.

With the electrical connector 10 thus constituted as the embodiment of electrical connector according to the present invention the FPC 40 inserted in the housing 11 can be put in the holding by the holding members 26 and 28 to be surely prevented from getting out of the housing 11 unwillingly and then released from the holding by the holding members 26 and 28 to be caused intentionally to get out of the housing 11 with an improved structure in which the holding members 26 and 28 and the releasing members 27 and 29 are formed in a body in the conductive shell 14 so that the number of structural parts can be reduced.

The conductive film 1 according to claim 2 wherein a thickness of the hard coated layer 12 ranges between 1 to 3 micrometers.

In the transparent touch switch of Fig.1 the thickness of the overcoat layer 14 was set at 70 nm as described above and irradiation was conducted using a 24 W three band fluorescent lamp while varying the irradiation angle.The shape of the electric conduction pattern was barely observed and satisfactory results were obtained.

The electric device according to claim 10 wherein the processor determines whether the electric device is performing the video talk by judging whether the video talk application is performed in foreground and whether the camera sensor is activated wherein the video talk application is listed in a white list.

In one exemplary embodiment the effect processing is performed in realtime and onthefly and a processed video stream 31 is then feed for example into the functional layer 26.The functional layer 26 may include functions commonly used in web camera device drivers such as for example brightness adjustment saturation adjustment contrast adjustment and so on.However in addition to the aforementioned controls the functional layer 26 may also allow effects selection functionality 42.The effects selection functionality 42 allows the IM application program 18 e.g.Yahoo IM to interact with the video device driver 22 so that a user can define the effect included in the video stream 30.One or more further functional layers may be provided to process the captured video stream which is then fed as a processed or modified video stream 33 to the IM application program 18.

The method of claim 10 when the signaling class field indicates the Header Compression the information type field indicates one of a Initialization Information for initializing information that is related the RoHC packet Configuration Parameter Static Chain and Dynamic Chain.

According to the embodiment of the present invention in FIG.43 to FIG.45 the process of merging the header information of the IR packet to the corresponding component PLP is performed by a header decompressing unit.Additionally according to the embodiment of the present invention the header decompressing unit further includes an RoHC decoder performing decompression on the data packets of the component PLP which is merged with the header information of the IR packet by using an inverse method of the RoHC compressing method.

The method according to claim 15 further comprising the step of selecting 4014 for feeding the generated microwaves to the cavity transmission lines based on the obtained signals representative of the impedance of each transmission line wherein the step of adjusting the impedances is performed for the selected transmission lines.

In connection with the microwave heating device according to Embodiment 5 though the description has been given taking up an example in which the power feeding routes are two lines the present invention is not limited to this example.It is possible to employ a cascade structure in which power divider parts are further provided at the rear stage relative to the power divider part 27 which provides the structure with four power feeding parts or eight power feeding parts for example.In this manner by employing the cascade structure for the power divider part the power handled at each power amplifier part being the power unit becomes further smaller and the power handled by the output part of the power amplifier part also becomes smaller.As a result the heat generating amount of the power amplifier part issuppressed which advantageously facilitates the heat dissipation design.When a plurality of power feeding routes at least three power feeding routes are formed in this manner provision of a phase control part to each of the power feeding routes makes it possible to adjust the phase of each power feeding route.

The vein authentication module according to claim 1 wherein the optical axis of the light emitting from the light source is perpendicular to the optical axis of the image sensor.

In the biometrics authentication system 6 the light guide sections 31A are arranged in regions on both sides of the detection section 110 along the longitudinal direction of the detection section 110 of a region which is in proximity to the detection section 110 but is not opposed to the detection section 110.The light source 10 isarranged at one end in the longitudinal direction of each of the light guide sections 31A and a diffraction surface of each diffraction section 31 B is arranged on a side surface of each light guide section 31 A.Even if the light guide sections 31 A are arranged on both sides of the detection section 110 in such a manner the same effects as those in the biometrics authentication system 1 according to the abovedescribed embodiment are obtainable.Moreover light is applied to the region A inside the living body 2 from each light guide section 31A so compared to the case where light is applied from one side light is allowed to be uniformly applied.

A hybrid vehicle 100 comprising an internal combustion engine 2 an electrical storage device 16 an electric motor 10 that generates a running driving force upon being supplied with an electric power from the electrical storage device and at least one electronic control unit 26 configured to i select one of a charge depleting mode CD and a charge sustaining mode CS ii cause the hybrid vehicle to run while making a changeover between a first running mode EV and a second running mode HV in accordance with a running situation of the hybrid vehicle in each of the charge depleting mode CD and the charge sustaining mode CS the first running mode EV being a mode in which the hybrid vehicle runs by the electric motor with the internal combustion engine stopped the second running mode HV being a mode in which the hybrid vehicle runs with the internal combustion engine in operation and a threshold of a power at which a changeover from the first running mode EV to the second running mode HV is made when the charge depleting mode CD is selected being larger than the threshold when the charge sustaining mode CS is selected and iii change driving force characteristics of the hybrid vehicle such that a driving torque of the hybrid vehicle for a same vehicle speed and a same accelerator opening degree when the charge depleting mode is selected is larger than the driving torque for the same vehicle speed and the same accelerator opening degree when the charge sustaining mode is selected.

In Fig.2 the abscissa axis indicates the actual acceleration pedal manipulation amount the longitudinal axis indicates the hybrid system power the line Lsr indicates a relationship between the actual acceleration pedal manipulation amount and the hybrid system power when the small proportion mode is selected the line Llr indicates a relationship between the acceleration pedal manipulation amount and the hybrid system power when the large proportion mode is selected the acceleration manipulation amount AP1 indicates the predetermined small manipulation amount the hybrid system power Psr1 indicates the hybrid system power when the actual acceleration pedal manipulation amount is equal to the predetermined small manipulation amount AP1 in the case that the small proportion mode is selected and the hybrid system power PIr1 indicates the hybrid system power when the actual acceleration pedal manipulation amount is equal to the predetermined small manipulation amount AP1 in the case that the large proportion mode is selected.

The vehicle according to claim 13 wherein the controller performs the drive control of the vehicle based on the operation parameter and the selected operation mode of the vehicle by after entering the HEVeco highelectricquantity mode if the speed of the vehicle is greater than a third speed threshold or the maximum discharge power of the power battery is less than or equal to a third discharge power threshold or the slope of the road where the vehicle runs on is greater than a third slope threshold controlling the vehicle to switch to a HEVeco highspeed highelectricquantity mode determining whether the required torque of the vehicle is less than or equal to a third torque threshold if the required torque of the vehicle is less than or equal to the third torque threshold controlling the synchronizer to engage operating the second motor generator with the required torque and controlling the first motor generator and the engine unit to stop if the required torque of the vehicle is greater than the third torque threshold determining whether the required torque of the vehicle is less than or equal to a sum of the third torque threshold and a fourth torque threshold if the required torque of the vehicle is less than or equal to the sum of the third torquethreshold and the fourth torque threshold controlling the synchronizer to engage operating the second motor generator with the third torque threshold operating the engine unit with a difference between the required torque and the third torque threshold and controlling the first motor generator to stop if the required torque of the vehicle is greater than the sum of the third torque threshold and the fourth torque threshold determining whether the required torque of the vehicle is less than or equal to a sum of the third torque threshold the fourth torque threshold and a fifth torque threshold if the required torque of the vehicle is less than or equal to the sum of the third torque threshold the fourth torque threshold and the fifth torque threshold controlling the synchronizer to engage operating the second motor generator with the third torque threshold operating the engine unit with the fourth torque threshold and operating the first motor generator with a difference between the required torque and the sum of the third torque threshold and the fourth torque threshold if the required torque of the vehicle is greater than the sum of the third torque threshold the fourth torque threshold and the fifth torque threshold controlling the synchronizer to engage calculating a second operation torque of the second motor generator according to the third torque threshold the fourth torque threshold and the fifth torque threshold operating the second motor generator with the second operation torque operating the engine unit with the fourth torque threshold and operating the first motor generator with a difference between the required torque and a sum of the second operation torque and the fourth torque threshold andor wherein the controller performs the drive control of the vehicle based on the operation parameter and the selected operation mode of the vehicle by after entering the HEVeco mediumelectricquantity mode if the speed of the vehicle is greater than a third speed threshold or the maximum discharge power of the power battery is less than or equal to a third discharge power threshold or the slope of the road where the vehicle runs on is greater than a third slope threshold controlling the vehicle to switch to a HEVeco highspeed mediumelectricquantity mode determining whether the required torque of the vehicle is less than or equal to a fourth torque threshold if the required torque of the vehicle is less than or equal to the fourth torque threshold controlling the synchronizer to engage connecting the engine unit and the first motor generator inparallel to generate electricity and controlling the second motor generator to stop if the required torque of the vehicle is greater than the fourth torque threshold determining whether the required torque of the vehicle is less than or equal to a sum of the first torque threshold and the fourth torque threshold if the required torque of the vehicle is less than or equal to the sum of the first torque threshold and the fourth torque threshold controlling the synchronizer to engage operating the engine unit with the fourth torque threshold operating the second motor generator with a difference between the required torque and the fourth torque threshold and controlling the first motor generator to stop if the required torque of the vehicle is greater than the sum of the first torque threshold and the fourth torque threshold determining whether the required torque of the vehicle is less than or equal to a sum of the first torque threshold the second torque threshold and the fourth torque threshold if the required torque of the vehicle is less than or equal to the sum of the first torque threshold the second torque threshold and the fourth torque threshold controlling the synchronizer to engage operating the engine unit with the fourth torque threshold operating the second motor generator with the first torque threshold and operating the first motor generator with a difference between the required torque and the sum of the first torque threshold and the fourth torque threshold if the required torque of the vehicle is greater than the sum of the first torque threshold the second torque threshold and the fourth torque threshold controlling the synchronizer to engage calculating a third operation torque of the second motor generator according to the first torque threshold the second torque threshold and the fourth torque threshold operating the second motor generator with the third operation torque operating the engine unit with the fourth torque threshold and operating the first motor generator with a difference between the required torque and a sum of the third operation torque and the fourth torque threshold.

A stopper not shown is provided so that the low speed engineside gear 4 and the high speed engineside gear 6 can not be moved in the axial direction of the input shaft 40.Grooves not shown which are adapted to engage with a plurality of the grooves 10 of the input shaft 40 are provided on the inside face of the hub 7 whereby the hub 7 is movable in the axial direction of the input shaft 40 but the movement toward the rotational direction of the input shaft 40 is limited.Therefore in casewhere the moving start clutch 39 is connected the torque output from the engine 1 is transmitted to the hub 7.

The method according to any one of claims 1 to 7 wherein the cathode material further comprises a binder.

The oversize particles after the sieving contain mainly iron and aluminum in the form of the battery case and the aluminum foil and the undersize particles mainly contain the positive electrode material.

The metallic component 100 as claimed in Claim 9 or Claim 10 wherein the ratio AB is selected from the range comprising 8020 to 595.

Thus in grading the niobium silicide composition the amount of constituents which promote oxidation resistance or wear resistance can be gradually increased through the interface I in a direction from the main portion of airfoil 12 toward the airfoil tip region 31.For example the amount of the siliconmodified Laves phase in the interface as a proportion of the total niobiumsilicidebased composition could be increased.As a nonlimiting illustration the volume percentage of the siliconmodified Laves phase in the interface I as a portion of the total niobiumsilicidebased composition could increase in preselected increments through the dimension of the interface in a direction toward the airfoil tip region.Although compositional grading could continue upward i.e.to the actual upper terminus of the tip the bulk of the tip region is usually not graded and is formed of a relatively uniform composition.Similarly while compositional grading could continue downward i.e.along the entire span most of the airfoil would usually comprise a relatively uniform niobium silicide composition.

The method of claim 1 wherein at least one of the one or more data frames indicates an end of service period.

Figure 5 shows an expanded view of one method embodiment for controlling sleep modes for realtime services from the perspective of a base station according to the present invention.The flow chart of Figure 5 mirrors that of Figure 4 but from the advantage point of the base station.The process once again begins 505 with the base station recognizing that a request 510 has been made to establish service.As previously described service between the base station 305 and the mobile station 310 is established 410 including QoS settings.At some point thereafter the base station 305 receives a request 330 to establish a sleep mode on one of the mobile stations 310 with which it interacts.With a lack of requests 330 to enter into sleep mode the system remains in active mode 355.When a sleep request 330 is present the base station analyzes the request and issues a sleep response 335.

The method as claimed in claim 1 or 2 further comprising displaying a password interface on the communication device 11 and receiving a device password through the password interface wherein said unlocking is performed in response to receiving the device password optionally wherein the password interface is displayed on a second interface in response to receiving the input or the password interface is displayed within the interface 500.

A related problem is associated with preestablished calendar appointments made via a calendar application of the mobile station.Such calendar appointments are stored in memory of the mobile station and are typically associated with calendar information which includes a date time andor time period of the appointment.The calendar information of the calendar application may be automatically synchronized with a corresponding calendar application on a computer e.g.a PC of a local area network LAN via the wireless communication network.Thus such calendar information may be received from the user interface of the mobile station or via the wireless communication network.The calendar appointment may or may not be for an anticipated scheduled voice call e.g.a conference call utilizing the mobile station.If the calendar appointment is for such a scheduled call wireless coverage is required for the mobile station.That is at the date and time of the appointment the mobile station must be located within RF coverage range of the wireless communication network to make or receive the call for the appointment.If not the user may miss or be late for the scheduled call.Note that the user may not be aware of any RF coverage problem until the calendar application reminds the user of the appointment at or near the date and time of the appointment.This problem is more generally associated with any stored appointment oritem in the mobile station having a preestablished scheduled date andor time such as a task appointment of a task application.

The method of any preceding claim further comprising detecting a lock condition and in response locking the electronic device 201 to disable a plurality of features of the electronic device 201 until the electronic device 201 is unlocked anddisplaying the unlock display screen 150 while the electronic device 201 is locked the unlock display screen 150 providing an interface for receiving authentication information to unlock the electronic device 201.

FIGURE 5C is a third screen 530 of the example GUI.In these implementations the screen 530 illustrates both the personal perimeter 540b and the enterprise perimeter 550b.The documents included in the personal perimeter 540b and the enterprise perimeter 550b are logically separated from each other and stored in the wireless communication device.The user may not be permitted to transfer documents between the personal perimeter 540b and the enterprise perimeter 550b.As such the corporate data included in the enterprise perimeter 550b may be secured.

Locking system of weapons by satellite tracking according to previous claim characterizes that the GPS first signal emitter chip 13 which is installed at the front end of the weapon and gives a signal which allows you to locate it by a symbol 15 in the front end of the weapon in the GPS signal receiving system.

The state of the weapon may comprise an injury zone.The injury zone may be based on the direction of fire of the weapon the type of weapon andor the type of rounds used by the weapon.The size andor shape of the injury zone may vary over time.The injury zone may be wedgeshaped elliptical circular or of another shape altogether.

The electrical household appliance according to claim 1 characterised in that the condenser 4 comprises a first condensation area 40 at least a part of the first condensation area 40 separating the area 41 for passage of the gaseous fluid from a first stretch81 of the channel 42 for passage of the coolant.

With reference to Figure 2 it is disclosed a first embodiment 108 of the condensing unit 8 and drying air circuit 7 illustrated in figure 1.In such embodiment the same reference numbers have been used for indicating features already depicted schematically in Figure 1.

The electronic device of claim 1 wherein the instructions configure the processor to acquire data from at least one of the at least one first sensor and the at least one second sensor and change at least one of the first period of time the second period of time and the third period of time based on at least a part of the acquired data.

FIG 10 has an expanded view of a sensor module on the rear of the main body of the electronic device according to an embodiment of the present invention.Referring to FIG 10 the sensor module 1000 is provided on the rear face R of the main body housing 810 in a modular form that includes an acceleration sensor 1002 and biometric sensors for measuring biometric signals in this example a heart rate sensor 1004 a GSR sensor 1006 and a temperature sensor 1008.The acceleration sensor 1002 may be a biaxis Xaxis Y axis acceleration sensor or a triaxis X axis Y axis Z axis acceleration sensor.The biometric sensors measure various biometric signals of a human body to output various biometric sensor measurements related to the human body and at least one of the biometric sensors may be used to detect a wearing state i.e.whether the device is being worn by a user.According to various embodimentsthe heart rate sensor 1004 the GSR sensor 1006 the temperature sensor 1008 two or more of those sensors or another biometric sensor may be used to detect the wearing state.

A method for manufacturing a lightweight multilayered composite substrate including a core layer being a foam sheet and reinforcement layers stacked on both surfaces of the core layer the method comprising preparing the foam sheet forming each of the reinforcement layers by forming a lowdensity reinforcement sheet by mixing a natural fiber with a synthetic fiber by carding crosswrapping the mixed natural fiber and synthetic fiber and combining the natural fiber and the synthetic fiber by needle punching combining a polyolefinbased film with the lowdensity reinforcement sheet before or after the needle punching and pressing the lowdensity reinforcement sheet by a heat roller set to 150 to 230C and obtaining a multilayered composite substrate by stacking the reinforcement layers on both surfaces of the foam sheet.

The polypropylene foam sheet 120 may be constituted by mixing for example 20 to 50 parts by weight of a linear lowdensity polyethylene or elastomer with 50 to 80 parts by weight of polypropylene.

The liquid cartridge according to claim 1 wherein the liquid reservoir 40B 40P is configured to provide liquid from the liquid reservoir 40B 40P to the exterior of the liquid cartridge 40 in such an amount that at certain positions of the line head printer 1 the humidity increases.

On the board 200h depicted in FIG.15C the terminals 210 290 have elongated shape extending over a distance equivalent to two rows of the board 200 pertaining to the embodiment in a manner similar to the first sensor drive terminal 250 and the first short detection terminal 210 of the board 200e described previously.The terminals of this shape as the contact locations are indicated by the symbol cp in FIG.15C can contact the corresponding contact forming portions 403 arranged in a staggered pattern.

Seamless quenched and tempered steel pipe having a yield strength from 415 MPa to 635 MPa and a wall thickness WT higher than or equal to 6 mm and lower than 35 mm wherein the steel pipe has a chemical composition consisting of 0.0500.090 wt C 0.801.65 wt Mn 0.100.45 wt Si 0.100.60 wt Cr 0.050.45 wt Ni 0.050.40 wt Mo 0.0200.040 wt Al 0.00300.0090 wt N 0.00080.0050 wt Ca 0.0000.040 wt Nb 0.0000.020 wt Ti 0.0000.070 wt V 0.0000.030 wt Zr 0.0000.030 wt Ta 0.000.25 wt Cu 0.0000.003 wt S 0.0000.018 wt P 0.00000.0005 wt B based on the composition weight the remaining being iron wherein at least one of Nb and V is present VNb content being lower than 0.07 wt wherein defining a first parameter P160x CCr5xe35x MoWT50xVNb the chemical composition satisfies a first condition 10P114.5 wherein the quenched and tempered steel pipe has at mid thickness and possibly also at the inner surface of the pipe a microstructure consisting of in volume percentage tempered bainite greater than or equal to 40 and ferrite VF lower than or equal to 60 and has at a distance up to 2 mm starting from both outer and inner surfaces of the pipe or possibly from the outer surface only a microstructure consisting of in volume percentage tempered martensite lower than 70tempered bainite higher than 30 and traces of ferrite less than or equal to 10 wherein the microstructure of the quenched and tempered steel pipe has an average prior austenite grain size measured by ASTM Standard E112 smaller than 25 m and wherein the maximum hardness values measured at 1.52.0 mm depth from the outer and inner surfaces are not higher than 235 HV10.

During the casting stage aluminum is added in order to reoxidize the steel and also an estimated amount of ferroalloys are added until it reaches 80 of the end composition.Next desulfurization takes place the casting is adjusted in composition as well as temperature and the steel is sent to the vacuum degassing station where reduction of gases H N O and S takes place and finally the treatment ends with the addition of CaSi to make inclusions float.

Laundry washing machine 1 according to one or more of the previous claims comprising a single dose additive compartment 14 able to receive single additive doses of washingrinsing products said single dose additive compartment 14 being positioned inside said cabinet 2 fluidly connected to said washing tub 3 and fluidly connected or connectable to said one or more pipes 21 so that the latter are fluidly connected or connectable to said washing tub 3 via said single dose additive compartment 14 said single dose additive compartment 14 being also connected or connectable to water mains external to said laundry washing machine 1.

FIG.6 illustrates the placement of three reservoirs 186 on the underside of the wash aid supply module 184.Similar to the embodiment illustrated in FIG.11 the reservoirs 186 of FIG.6 may also be detached from the wash aid supply module 184 by rotating the body of the reservoir 186 to unscrew it from the wash aid supply module 184.

The method of any one of claims 1 to 6 further comprising reading in from the memory the pixel data representing all or part of the reference frame at the at least one different resolution to the first resolution using the pixel data when generating an output frame to be displayed and outputting the generated output frame to a display.

The display apparatus 12 includes one of general display units such as a liquid crystal display unit an EL Electronic Luminescence display unit and a plasma display unit.The display apparatus 12 may be provided integrally with some other module of the image processing apparatus 10 or may be connected by wire or wireless connection by using a wire cable a wireless LAN Local Area Network or the like.The display processing part 44 has a frame memory not shown for buffering data to be displayed on the display unit of the display apparatus 12.

An electric power steering system comprising a power column including an electric motor and a speed reduction mechanism that amplifies motor torque of the electric motor an assist torque command value calculation unit that sets an assist torque command value of the electric motor an observer that calculates an estimated value of a rotation angle of the power column and an estimated value of a frictional force that is generated in the power column by using an observer model in which it is assumed that no friction is generated in the power column and whose characteristic is corrected by using an actual measurement value of a rotation angle of the electric motor and a model correction gain a reference model in which it is assumed that no friction is generated in the power column and which calculates a target value of the rotation angle of the power column a feedback manipulated variable calculation unit that calculates a feedback manipulated variable by performing a feedback operation on a deviation between the target value of the rotation angle of the power column and the estimated value of the rotation angle of the power column a motor torque command value calculation unit that calculates a motor torque command value by correcting the assist torque command value using the estimated value of the frictional force and the feedback manipulated variable and a motor current control unit that controls a motor current flowing in the electric motor so that the motor torque of the electric motor becomes equal to the motor torque command value wherein a feedback gain that is used in the feedback manipulated variable calculation unit and the model correction gain that is used in the observer are set so that a characteristic equation corresponding to an equation of motion representing behavior of the electric power steering system has a double root.

Equations of motion are expressed by Expressions 1 2 from FIG.5.mwgvwgFwgtotN1wgN2wgFcf1wgFcf2wg mwwvwwFwwtotN1wwN2wwFcf1wwFcf2ww

The product of Claims 10 or 11 where the rule set further includes at least one transformation function for modifying the identified portion of the particular process binary.

Then the modified process can be redeployed 204.If necessary the running process instance can be migrated to the modified process definition.In the example given above this automatic migration would only require to exchange the process definition which is used by the WFMS to look up the next activity to start once an activity of the running process instance is finished.In more complex cases it may be necessary to terminate activities and start other ones e.g.if an already active process step should be preceded by another one.Finally the adhoc modified process is in effect 205.This adhoc modification API can be realized for example using the Java programming language.

An apparatus according to claim 1 or any claim dependent on claim 1 further comprising means for detecting an indication communicated upon a forward link of a type of scheduling architecture of which the relevant packet radio communication system is comprised.

AP device 210 also includes a software structure that includes a number of layers prescribed by OSI.These layers include a layer L1 230 that is also called a physical layer 230 and is for controlling medium 220.A layer L2 240 is on top of layer L1 230 and a layer L3 250 is on top of layer L2 240 and is also called network layer L3 250.Other layers not shown in Fig.2 may also be present.

A method for controlling a mobile terminal that controls one or more lighting devices that illuminate one or more spaces the mobile terminal including a display and a memory and the method causing a computer of the mobile terminal to execute obtaining terminal location information indicating a location of the mobile terminal rearranging using the memory storing one or more scenes indicating one or more illumination states established by the one or more lighting devices and one or more pieces of scene location information indicating locations of the one or more scenes while associating the one or more scenes and the one or more pieces of scene location information with each other one or more scene icons corresponding to the one or more scenes on the basis of the terminal location information and the one or more pieces of scene location information displaying the rearranged one or more scene icons on the display and transmitting if one of the one or more scene icons is selected by a user a control signal for controlling the one or more lighting devices to the one or more lighting devices so that the one or more spaces are illuminated in an illumination state indicated by a scene corresponding to the selected scene icon.

The control apparatus 200 may further include a first storage 250 for storing a program for processing and controlling the first control unit 240 and for temporarily storing input or output data.

The method of claim 9 further comprising maintaining said onetoone relationship in said game controller 154 using a game console identifier.

The console is preferably powered up before pressing its BIND button.If a user initiates binding on a controller 154 that is currently connected to a console 100 the controller 154 drops the connection to the console 100 prior to attempting the binding process.As thebinding process operates a status notification screen may display binding and discovery process e.g.binding...bound....discovered.Binding is a one to one event.In other words pressing the binding button on the console 100 will bind one controller 154 at a time.To bind a second controller 154 the BIND button on the console 100 is pressed a second time.If binding is not successful within a predetermined time the console 100 or controller 154 will automatically time out and return to a previous state such that the previous binding relationship is not lost.

The separator according to any of the claims 1 to 8 wherein the coating layer is formed by dip coating.

This invention relates to separators to be used in secondary lithium batteries.

A body temperature maintaining apparatus as claimed in claim 1 further including a temperature sensor configured to detect temperature of the heat applying part andor temperature of the patient a temperature setting unit configured to set the temperature and a temperature controlling part configured to control the forcibly moving unit according to the temperature which is detected by the temperature sensor and the temperature which has been set by the temperature setting unit.

In one embodiment the thermal exchange units 120A 120B are detachably attached to the body elements 110A 110B on at least one surface or side.The opposing side of the thermal exchange units 120A 120B is provided and designed to efficiently and comfortably contact the extremity of a mammal to provide thermal exchange with the extremity disposed within the space 150.In operation the body elements 110A 110B the thermal exchange units 120A 120B are assembled toreceive a portion of the extremity of a mammal into the space 150.In one embodiment one or more thermal exchange units can be preassembled inside the devices.In another embodiment one or more thermal exchange units can be assembled into the devices prior to use.

The method according to any of the preceding claims wherein the tempered filling composition is aerated to decrease its density to from 650 to 1300 gL preferably to from 700 to 1200 gL more preferably to from 950 to 1190 gL prior to the step of depositing the tempered filling composition.

In traditional tempering processes the chocolate mass is generally brought to about 40C to 50C and then cooled to about 26C to 29C first step so that crystallization is initiated.Subsequently the mass is reheated around 2.0C to 4.0C second step to remelt most of the unstable crystals in the mass preserving however a content of stable Vcrystals which melt at a higher temperature than the unstable crystals.

A lubricating oil composition as claimed in any one of the preceding claims wherein the ashless alkylene bisdihydrocarbyldithiocarbamate is methylene bisdibutyldithiocarbamate.

The ashless dithiocarbamate compound of the abovementioned formula is an additive for rubber i.e.vulcanizing agent or an additive for gear oils and turbine oils.The alkyl group can be a straightchain alkyl group or a branchedchain alkyl group.Examples include methyl ethyl propyl nbutyl isobutyl pentyl isopentyl heptyl octyl 2ethylhexyl nonyl decyl and dodecyl.Preferred are alkyl groups having about 1 to 10 carbon atoms.

The method according to claim 4 characterized by further comprising if the mass distribution model is outside of the preset limit the step 220 of repeating the steps 214 216 218 of identifying creating and determining with different choices for the temporary longitudinal axis 314 that intersects the model 300 until the mass distribution model is within the preset limit.

Based on this the CPU 21 reproduces the shape of each pretwisting counterweight that is the shape of each material counterweight immediately after forging by rotating the shape of each measured counterweight in the countertwisting direction at an angle to be obtained by reflecting a twisting error in a predetermined twisting amount e.g.60 degrees.This makes it possible to compare the designed shape of the V6 crankshaft in forging and the shape of the posttwisting V6 crankshaft.

The back sheet according to any of the preceding claims wherein the weather resistant layer further comprises Ti02 particles.

The back sheet A2 of twolayer structure and the EVAadhered sample A2 composed of EVAcured coating film for comparison blacksheet A were prepared in the same manner as in Example 1 except that the curable coating 6 for comparison prepared in Preparation Example 6 was used as a coating.Adhesion and bending characteristics were examined in the same manner as in Example 1 and the results are shown in Table 1.TABLE 1Structure of back sheet Fig.1 Ex.1 Com.Ex.1Coating film Waterimpermeable sheet Curable coating 1 Sheet A Curable coating 6 Sheet ACharacteristics of back sheetAdhesion 1 onetime 100100 100100Adhesion 1 threetime 100100 98100Bending characteristics number of test pieces 1 1EVA laminate sampleEVA laminate surface Coated film side Coated film sideAdhesion 2Peeling strength Ncm 26 21

The compound cycle engine as defined in claim 6 wherein the turbocharger shaft and the output shaft extend in a nonparallel manner.

For efficient operation the working chambers 40 are sealed for example by springloaded apex seals 56 extending from the rotor 34 to engage the peripheral wall 38 and springloaded face or gas seals 58 and end or corner seals 60 extending from the rotor 34 to engage the end walls 54.The rotor 34 also includes at least one springloaded oil seal ring 62 biased against the end wall 54 around the bearing for the rotor 34 on the shaft eccentric portion 42.

A wireless communication system comprising at least one mobile wireless communications device comprising a first display configured to display a primary resource having at least one hyperlink therein associated with a secondary resource a first near field communication NFC transceiver and a first controller coupled to said first display and said first NFC transceiver and a computing device comprising a second display a second NFC transceiver and a second controller coupled to said second display and said second NFC transceiver said first controller being configured to store the at least one hyperlink based upon displaying of the primary resource on said first display and without displaying the secondary resource on the first display and to send the stored at least one hyperlink to said computing device using said first and second NFC transceivers said second controller configured to display the secondary resource associated with the at least one hyperlink on said second display.

In particular once the first terminal 100 is wirelessconnected to the second terminal 200 the first terminal 100 transmits screen information displayed on the display unit 151 to the second terminal 200 so that the screen information of the first terminal 100 is reproduced on at least a portion of a screen of the second terminal 200.

The laundry dryer according to claim 3 wherein said inlet 17 of said drum exhaust process air conduit 18a is located at a lower edge of said aperture 4a to access said drum 3.

More specifically in the example shown revolving drum 4 rests horizontally inside casing 3 on a number of horizontal supporting rollers 6 which are fitted tocasing 3 to let revolving drum 4 freely rotate about its longitudinal axis L.

The image display control device according to claim 2 wherein the identification number allocation section assigns each of the identification numbers according to the standard scale when the slider is moved away from the peripheral position.

The abovedescribed methods according to the present invention can be implemented in hardware firmware or as software or computer code that can be stored in a recording medium such as a CD ROM an RAM a floppy disk a hard disk or a magnetooptical disk or computer code downloaded over a network originally stored on a remote recording medium or a nontransitory machine readable medium and to be stored on a local recording medium so that the methods described herein can be rendered in such software that is stored on the recording medium using a general purpose computer or a special processor or in programmable or dedicated hardware such as an ASIC or FPGA.As would be understood in the art the computer the processor microprocessor controller or the programmable hardware include memory components e.g.RAM ROM Flash etc.that may store or receive software or computer code that when accessed and executed by the computer processor or hardware implement the processing methods described herein.In addition it would be recognized thatwhen a general purpose computer accesses code for implementing the processing shown herein the execution of the code transforms the general purpose computer into a special purpose computer for executing the processing shown herein.

The electronic device of claim 9 wherein the second level of permissions differing from the first level of permissions by providing the application access to stored information being a contact list.

As mentioned in the introduction it is desired to have the possibility to add further functions to the phone by downloading applications and libraries and shared components.One example of when libraries are useful is for games.Basically one would like the gameengine to be a library which could be used by the levels where the levels could be downloaded as independent applications.Another possibility would be that all game levels are applications and the common library part is included in the level 1 application.

A control system 40 for a gas turbine engine 10 the gas turbine engine 10 having a compressor section 12 the control system 40 comprising a hybrid model predictive control HMPC module 60 the HMPC module 60 receiving power goals and operability limits and determining a multivariable control command for the gas turbine engine the multivariable control command determined using the power goals the operability limits actuator goals sensor signals and synthesis signals system sensors 36 determining the sensor signals a nonlinear engine model 45 for estimating corrected speed signals and synthesis signals using the sensor signals the synthesis signals including an estimated stall margin remaining a goal generation module 50 for determining actuator goals for the HMPC module 60 using the corrected speed signals and an actuator 34 for controlling the gas turbine engine based on the multivariable control command.

The outputs of the SRTM include estimates for certain unmeasured and unsensed parameters.These output parameters may include core speed fan speed fan inlet pressure fan exit pressure compressor inlet pressure compressor discharge static pressure compressor discharge total pressure fan airflow compressor airflow fan inlet temperature compressor inlet temperature high pressure turbine exit temperature fan stall margin core stall margin and thrust.

A wind turbine power generation facility 1 comprising a rotor 3 including a wind turbine blade 2 a nacelle 12 for rotatably supporting the rotor 3 a yaw driving part 20 configured to rotate the nacelle 12 a pitch driving part 22 configured to change a pitch angle of the wind turbine blade 2 and a controller 100 configured to provide the pitch driving part 22 with a pitchangle command value to control the pitch driving part wherein the controller 100 includes a demandvalue calculation part 122 configured to calculate a pitchangle demand value on the basis of at least a rotation speed of the rotor 3 a limitvalue setting part 124 for setting a pitch angle between a full fine pitch angle and a full feather pitch angle as a limit value if at least an angle between a wind direction and an orientation of the nacelle 12 is not less than a threshold value A1 where A1 gt 0 and a commandvalue calculation part 126 configured to set the limit value as the pitchangle command value if the pitchangle demand value is a value closer to the full fine pitch angle than the limit value is and to set the pitchangle demand value as the pitchangle command value if the pitchangle demand value is a value equal to the limit value or closer to the full feather pitch angle than the limit value is.

In step 57 the controller 26 receives the calculated first to third pitch angle reference commands 1cmd 2cmd 3cmd and other reference commands from the scheduler 22 and receives the estimated parameters from the estimator 24 and the sensed signals from the sensors and then calculates corresponding control commands to control the wind turbine 10.Because the pitch angle reference commands 1cmd 2cmd 3cmd provide reference for mitigating loads during yaw error the control commands such as pitch commands on each of the blades 141 142 143 and the torque commands generated by the controller 26 can mitigate loads during yaw error.After the adjusted control commands are generated based on the calculated first to third pitch angle reference commands 1cmd 2cmd 3cmd the process proceeds back to the step 51 and thus this control block 40 can provide the pitch angle reference commands 1cmd 2cmd 3cmd during operation of the wind turbine 10 for mitigating loads during yaw error thereof.

The electric power tool 10 according to claim 1 wherein a plurality of resistive elements D1D5 R1 form the variable resistor unit 16.

In the present example handpiece 1640 comprises housing 1642.Housing 1642 comprises an opening 1641 for receiving a portion of floating button 1672.Housing 1642 also comprises a recessed portion 1644 surrounding opening 1641.Floating button 1672 is positioned within recessed portion 1644 of housing 1642 and the nature of this configuration can provide a user with a tactile reference point for accessing and controlling surgical instrument 1620 without needing to visually sight floating button 1672.

The lens of claim 4 wherein the lens further comprises a connecting surface and the connecting surface is interconnected between the bottom surface and the light output surface.

Where iis an angle between a normal line at point P4 and the straight line passing the reference point O to the point P4 and ii R2 is a variation of R2 at a time when 2 changes by a minimal amount 2 tanR2R22.Then where n is a refraction index it is necessary to have the following equation of n sin 1 in order to emit the light from the lightoutgoing surface.If it is put that R2R22A2 then A21 n21.This should be satisfied for emitting from the lightoutgoing surface 2b the light flux entering at the point P4 from the direction in which the straight line passes through the reference point O to the point P4 on the lightoutgoing surface.This example deals with the case where the light emitted from the reference point O enters the lightoutgoing surface 2bwithout being refracted on the lightincoming surface 2a.In practice however the light emitted from the reference point O is refracted on the lightincoming surface 2a.As such an incident angle of the light to enter the point P4 on the lightoutgoing surface 2b becomes larger than the angle.Thus total reflection is always caused under the condition of A21n21.As such at least the following condition should be satisfied A2lt1n21.

An apparatus for controlling a state of a terminal screen comprising a receiving unit 91 configured to receive by a second human body communication component 11 in a wearable device via a metal structure 12 on a surface of the wearable device first electromagnetic signal issued by a first human body communication component 21 in a terminal to a metal structure 22 on a surface of the terminal a generation unit 92 configured to if the first electromagnetic signal indicates that a realtime state of a corresponding terminal screen is a first state generate a second electromagnetic signal containing state switching information with respect to the terminal screen and a sending unit 93 configured to send the second electromagnetic signal to the metal structure 12 on the surface of the wearable device via the second human body communication component 11 such that the second electromagnetic signal is transmitted to the first human body communication component 21 via a skin of a user.

The service terminal 20 is a terminal for purveying a variety of information such as music picture map or the like information or selling commercial goods installed on a street or in a store an ATM terminal provided in a bank a wicket gate in a station as means of traffic seats in public means of conveyance such as aircraft or electrical car or a device embedded in a wall of a building for furnishing a wide variety of services.The communication may be had between the portable equipment 10 and the service terminal 20 by the user 30 contacting a contact point 29 of the service terminal 20such as by touching with a finger or the palm of his or her hand.

Method according to the preceding claim wherein the adjusting the estimated heat input or Wobbe index is performed if a following criteria is satisfied the estimated heat input HIengmodel or Wobbe index WIengcal is stable within5 in particular2 within at least one update interval of measuring the caloric value and the measured Caloric Value LCVmea is within a predetermined limit range.

In accordance with certain embodiments of the invention0 may correspond to natural gas only fuel.Highermay indicate worse NOx and better CO.In accordance with certain example embodiments of the invention one or more emissions parameters including NOx CO or unburned hydrocarbons may be monitored.In certain embodiments performance parameters including but not limited to temperature compressor pressure ratio load or speed may be additionally monitored.According to example embodiments fuel composition may be estimated based at least in part on one or more of the one or more monitored emissions parameters or the one or more monitored performance parameters.In an example embodiment at least one turbine operating parameter may be adjusted based at least in part on the estimated fuel composition.

The apparatus as claimed in any one of the preceding claims further comprising a third storage which is a nonvolatile storage and to store the first program and the second program wherein the controller when an operation mode of the image forming apparatus is converted to a power saving mode stops communication with the external interface stores the second program prestored in the third storage in the second storage and resumes communication with the external interface using the second program stored in the second storage.

The second memory unit 140 may store a program capable of supporting the low power mode applications and may be implemented as static random access memory SRAM.

The driver assistance system of claim 3 wherein the threshold speed the threshold time and the threshold separation are further based on one or more of the entry condition a vehicle condition a driver preference the exit condition and a road condition.

Thus before the vehicle enters Follow mode and starts to decelerate to maintain a set distance from the preceding vehiclethe driver has sufficient time to accelerate to overtake if the road conditions allow.However if road conditions do not allow and the driver does not interveneFollow mode is quickly entered to allow smooth deceleration.

Arrangement 100 for holding blades in particular curved blades for a wind turbine the arrangement 100 comprising a first holding device 150 comprising a first end frame 151 for holding a first root end 111 of a first blade 110 and a first centre frame 152 for holding a first centre section 112 of the first blade 110 in such a way that wherein the first centre section 112 is spaced from a first tip end 113 of the first blade 110 wherein the first holding device 150 is formed for being coupled to a supporting base a second holding device 160 comprising a second end frame 161 for holding a second root end 121 of a second blade 120 and a second centre frame 162 for holding a second centre section 122 of the second blade 120 in such a way that the second centre section 122 is spaced from a second tip end 123 of the second blade 120 and wherein the second holding device 160 is formed for being coupled to the supporting base and a third holding device 170 comprising a third end frame 171 for holding a third root end 131 of a third blade 130 and a third centre frame 172 for holding a third centre section 132 of the third blade 130 in such a way that the third centre section 132 is spaced from a third tip end 133 of the third blade 130 wherein the third end frame 171 is formed for being coupled to the supporting base wherein the first holding device 150 and the second holding device 160 are formed for holding the first blade 110 and the second blade 120 within a first holding plane 101 wherein the third holding device 170 is formed for holding the third blade 130 within a second holding plane 102 wherein the second holding plane 102 is spaced from the first holding plane 101wherein the third centre frame 172 is coupleable to the supporting base by the first centre frame 152 and the second centre frame 162.

The transport system 1 comprises a root frame structure 5 supporting the root end 3 of the spar 2.The transport system further comprises a fixation device 6 which is adapted to fixate and support the spar 2 between the root end 3 and tip end 4.As shown in Figs.13 the fixation device 6 has two rolling means such as wheels 7 arranged on a shaft extending underneath the fixation device thewheels being arranged in each end of the shaft so that wheels are situated at each side of the fixation device.

A method of cleaning at least one surface of an extractor electrode of an electron gun arrangement the method comprising providing a potential to a suppressor electrode being a negative potential relative to the extractor electrode particularly a negative voltage with an absolute value of 0.5 kV or greater thermally emitting electrons from an auxiliary emitter electrode and pretreating the at least one surface of the extractor electrode surface using the thermally emitted electrons wherein the potential of the suppressor electrode controls an area of pretreatment with thermally emitted electrons.

FIG.1 is a schematic diagram 100 of a cold field emitter CFE electron source in a test setup for measuring the onaxis emission current stability.A number of physical effects occur at and in the proximity of the CFE emitter tip 103 which may have a deleterious influence on the stability and noise levels of the source in a focused electron beam system such as a scanning electron microscope SEM transmission electron microscope TEM or scanning transmission electron microscope STEM.In a typical CFE source electrons are emitted from the sharp end 103 of an oriented wire 102 which is welded to a support filament 104.A bias voltage is applied between the emitter tip 103 and an extractor electrode 108 which creates a very high electric field at the surface of the tip 103 thereby inducing tunneling of electrons out of the tip 103 into the vacuum in front of the tip.These emitted electrons form a beam 106 which is directed toward the right of FIG.1.The great majority of the electrons in beam 106 strike the extractor 108 at area 110 while a small portion of the center of the emission distribution passes through hole 113 in extractor 108 to form beam 112.The test setup for measuring the emission stability comprises a shield plate 114 and a Faraday cup 120 electrically connected to an electrometer 122.The majority of beam 112 strikes the shield plate 114 at area 116 while a small portion 118 from the center of the emission distribution passes through the hole 130 in shield plate 114 and is collected by the Faraday cup 120.This collected current is measured by electrometer 122 and then passes to the system ground 124.Since in a typical focused electron beam system only a very small portion of the center of the emission distribution from the tip 103 contributes to the final beam current at the sample the test system illustrated here is configured to measure that center portion while excluding other portions of the emission distribution which would be apertured away i.e.blocked from passing to the sample in an actual application.

A method for replacing a headfloat 120 while being deployed on the water for a marine seismic survey the method comprising towing a streamer 104connecting a head buoy 110 to a head portion 1 04A of the streamer 104 or to a leadin 106 towing with the head buoy 110 the headfloat 120 wherein the headfloat 120 is configured to float in water and detaching the headfloat 120 from the head buoy 110 for maintenance.

The seismic acquisition system may include a plurality of seismic sensor streamers 14 towed by the seismic vessel 10 as shown in FIG.1 or by a different vessel not shown.The streamers 14 are generally cables that extend behind the towing vessel for a certain distance and each such streamer 14 includes seismic sensors 22 disposed thereon at spaced apart locations.The seismic sensors 22 are typically pressure or pressure time gradient responsive sensors such as hydrophones but may also be particle motion responsive sensors such as acceleromcters or geophones or combinations of hydrophones and geophones.The type of sensor is not a limitation on the scope of the present invention.Geometry of the streamers in the water is maintained by various towing devices including lateral force generating devices called paravanes 18 disposed at the end of paravane lead in ropes 16.The streamers 14 are coupled at their forward ends to a respective termination 21 which couples the streamer 14 to a corresponding lead in cable 20.The paravane lead in ropes 16 and lead in cables 20 may be deployed from the vessel 10 and retrieved thereon by winches not shown or similar spooling devices known in the art.The lateral separation of the paravanes 18 may be limited by a spreader cable 19 ultimately to maintain the geometry of the entire array of streamers 14.In some examples the centermost section of the spreader cable 19 may be omitted.

Product compositions characterized in that they contain a gas tight barrier layer of EVOH of a thickness from 8 to 150 gsm.

The thermoplastic resin which is extruded from the Tdie according to the present invention is not particularly limited provided that the thermoplastic resin is extrudable and has the film formability.For example any one of polyolefin formed of random of some olefin or block copolymer such as lowdensity polyethylene highdensity polyethylene polypropylene polylbutene poly4methy1pentene or ethylene propylene 1butene 4methyl1pentyneethylene vinyl compound copolymer such as ethylene vinyl acetate copolymer ethylene vinyl alcohol copolymer ethylene vinyl chloride copolymer styrenebased resin such as polystyrene acrylic nitrile styrene copolymer ABSmethylstyrene styrene copolymer polyvinyl chemical compound such as polyvinyl chloride polyvinylidene chloride vinyl chloride vinylidene copolymer polymethyl acrylate polymethyl methacrylate polyamide such as nylon 6 nylon 66 nylon 610 nylon 11 nylon 12 thermoplastic polyester such as polyethylene terephthalate polybutylene terephthalate polycarbonate polyphenylene oxide or a mixture of these compounds can be used as the thermoplastic resin.

The atomizer according to claim 1 further comprising a fixing cover configured for fixing the piercing element to the holder wherein the air outlet is defined in the fixing cover.

Referring to FIGS.1 and 2 one end of the liquid storage case 20 is connected with an atomizing device 30 so the medicinal liquid in the liquid storage case 20 will be output into the atomizing device 30 under negative pressure.The atomizing device comprises an atomizing assembly a liquid guiding assembly and a connector assembly.

The method according to claim 14 wherein the digital processor programs programmable configuration bits of said frequency range register 104a when a change in clock frequency is detected.

Referring to FIG.9 another embodiment of the delay line in accordance with the present invention is shown.A delay line circuit 400 is shown.Delay line 400 includes delay control lines 402 which input a digital word generated by a phase comparator 404.The digital word enables appropriate multiplexers 406 for example 21 multiplexers.Multiplexers 406 are arranged hierarchically according to the place value of the digital word.A delay line input IN receives a periodic signal such as a clock signal and applies the signal to a plurality of delay units 408.Delay units 408 each preferably include a pair of invertors 410 for providing an appropriate delay to the input periodic signal.The number of delay units 408 employed in delay line 400 is set by multiplexers 406 which are activated by the digital word on control lines 402.The multiplexers 406 complete a circuit from input IN to anoutput OUT through a predetermined number of inverter pairs to provide an appropriate delay such that the input and the output signals are substantially in sync.In accordance with the invention a supply voltage Vdd may be adjusted by a voltage generator 412 according to the delay control signal or in another embodiment Vdd may be set to a particular value to adjust delay line 400 for use with predetermined frequencies.For example a first voltage is employed for Vdd for a first frequency and a second voltage is employed for Vdd for a second frequency where the first frequency is the operating frequency and the second frequency is a slower frequency for example aboutthe operating frequency.In one embodiment the slower frequency may be used for testing or the integrated circuit may be sold as a slower device rated at the slower frequency i.e.a chip that can operate at 100 MHz may be sold as a chip that runs at 60 MHz by employing the invention.By implementing the present invention fmax and fmin as described above with reference to FIG.3 are afforded more margin since Dmin and Dmax may be reduced to improve operational frequency.

The system of any of claims 1014 wherein the one or more processors are further configured to operate as a bundle adjustment.

In the present invention although the time of the posture sensor is not synchronized with the time of the camera the obtaining time of the postural data and the photographing time of the image are converted to the reference time output from the reference clock 6.The converted time compensates the transmission delay of the postural data of the posture sensor and the transmission delay of the image data.

The Xray interferometer according to any of the preceding claims wherein during imaging the distance between the object 130 and the phase grating 122 equals zero.

In general the distances I and d are increasing with decreasingincreasing energy and they are decreasing with decreasing periodicities.Going towards higher energies thus demands for shorter periodicities for the gratings in order to keep the setup as compact as possible.On the other hand higher energy also demands for deeper gratings which also pushes the gratings to have aspect ratios as large as possible.However by designing phase grating 522 such that lt e.g.2 the aspect ratio of absorption grating 523 is only half than in the case with.

The fastener cartridge assembly of Claim 3 wherein the support is configured to deform when the fastener is moved to its fired position.

Although the first layer 1011 can be compressible the second layer 1012 can be substantially more compressible than the first layer 1011.For example the second layer 1012can be about twice as compressible about three times as compressible about four times as compressible about five times as compressible andor about ten times as compressible for example as the first layer 1011.Stated another way the second layer 1012 may compress about two times about three times about four times about five times andor about ten times as much as first layer 1011 for a given force.In certain embodiments the second layer 1012 can be between about twice as compressible and about ten times as compressible for example as the first layer 1011.In at least one embodiment the second layer 1012 can comprise a plurality of air voids defined therein wherein the amount andor size of the air voids in the second layer 1012 can be controlled in order to provide a desired compressibility of the second layer 1012.Similar to the above although the third layer 1013 can be compressible the fourth layer 1014 can be substantially more compressible than the third layer 1013.For example the fourth layer 1014 can be about twice as compressible about three times as compressible about four times as compressible about five times as compressible andor about ten times as compressible for example as the third layer 1013.Stated another way the fourth layer 1014 may compress about two times about three times about four times about five times andor about ten times as much as third layer 1013 for a given force.In certain embodiments the fourth layer 1014 can be between about twice as compressible and about ten times as compressible for example as the third layer 1013.In at least one embodiment the fourth layer 1014 can comprise a plurality of air voids defined therein wherein the amount andor size of the air voids in the fourth layer 1014 can be controlled in order to provide a desired compressibility of the fourth layer 1014.In various circumstances the compressibility of a cartridge body or cartridge body layer can be expressed in terms of a compression rate i.e.a distance in which a layer is compressed for a given amount of force.For example a layer having a high compression rate will compress a larger distance for a given amount of compressive force applied to the layer as compared to a layer having a lower compression rate.This being said the second layer 1012 can have a higher compression rate than the first layer 1011 and similarly the fourth layer 1014 can have a higher compression rate than the third layer 1013.In various embodiments the second layer 1012 and the fourth layer 1014 can be comprised of the same material and can comprise the same compression rate.In various embodiments the second layer 1012 and the fourth layer 1014 can be comprised of materials having different compression rates.Similarly the first layer 1011 and the third layer 1013 can be comprised of the same material and can comprise the samecompression rate.In certain embodiments the first layer 1011 and the third layer 1013 can be comprised of materials having different compression rates.

An audio processing apparatus comprising a first amplifier that amplifies a surround audio signal or a third room audio signal the surround audio signal being a surround left audio signal or a surround right audio signal and the third room audio signal being a third room left audio signal or a third room right audio signal a second amplifier that amplifies a first extended audio signal a second extended audio signal a third extended audio signal or a second room audio signal the first extended audiosignal being a first extended left audio signal or a first extended right audio signal the second extended audio signal being a second extended left audio signal or a second extended right audio signal the third extended audio signal being a third extended left audio signal or a third extended right audio signal and the second room audio signal being a second room left audio signal or a second room right audio signal a first speaker terminal that outputs the surround audio signal a second speaker terminal that outputs the first extended audio signal a third speaker terminal that outputs the second extended audio signal or the second room audio signal a fourth speaker terminal that outputs the third extended audio signal or the third room audio signal a first switch that switches whether the surround audio signal from the first amplifier is supplied to the first speaker terminal a second switch that switches whether the third room audio signal from the first amplifier is supplied to the fourth speaker terminal a third switch that switches whether the first extended audio signal from the second amplifier is supplied to the second speaker terminal a fourth switch that switches whether the second extended audio signal or the second room audio signal from the second amplifier is supplied to the third speaker terminal a fifth switch that switches whether the third extended audio signal from the second amplifier is supplied to the fourth speaker terminal and a switching controller that controls the first switch the second switch the third switch the fourth switch and the fifth switch.

A preout unit 211 may not include the switches S211a to S211f but the DSP may change the channels of the audio signals to be supplied to the amplifiers 212a to 212c in accordance with the channels included in the multichannel audio data.

The method 1000 of any of the claims 1 to 3 wherein determining the group curtailment setpoint 2i comprises at least one of considering a power demand of at least one energy trader for at least one of the at least two groups of wind turbinesrelaxing at least one of the group curtailment setpoints 2i to allow an overproduction and limiting a group power reduction in accordance with a group slew rate limit.

Further improvement of the control behavior can be accomplished by linking the control system of the different turbines of the windpark to each other.Thus according to an example embodiment of the invention the data collected by respective turbines is further transmitted to an operatively connected central processing and control unit 16 which receives estimated or measured signals from each turbine in the windpark or a subset of wind turbines in the control set.Although in the illustrated embodiment the respective controllers 14 for the individual turbines 12 are disposed at the respective tower the controllers for the individual turbine towers may be incorporated in the central control unit.The central processing and control unit based on the signals received and stored data makes calculations on the impact of power production and loads on each turbine and control signals are then sent to each respective turbine to actuate the control mechanism local to each turbine as discussed further below.

The method or use of any of claims 1 to 6 wherein filtration is performed at a temperature from about 2 C to about 60 C preferably about 10 C to about 40 C most preferably about 15 C to about 37C.

A preferred method of carrying out the present invention will be described hereinafter.The material resulting from this clarification diluted to a concentration lower than or equal to 1.5 mgml in thepresence of at least one amino acid preferably arginine at a concentration between 0.1 and 8 weightvolume and a temperature between 18 and 37C preferably in both cases and previously clarified through filters having a greater pore size is filtered through a nanofilter having a pore size smaller than 35 nm preferably about 20 nm with protein recovery greater than 80.The filter area required to carry out this nanofiltration is between 10 and 1000 cm2 per litre of solution to be filtered depending on the protein concentration of the solution and the pore size of the nanofilter used.The processing time is usually shorter than 12 hours.

The method according to claim 1 wherein identifying the gaps comprises detecting the gaps that are larger than a first threshold but smaller than a second threshold.

In the embodiments that are disclosed below an operator of a cardiac ablation system brings the distal end of a catheter into contact with the inner heart wall in a body of a patient.The ablation system displays a map of the heart and tracks and displays the location of the catheter in the heart relative to the map.The operator manipulates the catheter and controls the system to apply ablation therapy at multiple tissue sites in the heart with which the catheter is brought into contact.Based on the catheter location measurements the system assesses the stability of contact between the catheter and the tissue sites while applying the therapy.On the basis of the assessed stability the system then automatically marks the map to indicate the tissue sites at which the therapy was applied.

A method of manufacturing the decorative sheet according to claim 5 or 6 wherein the convex pattern which is formed of the ionizing radiation curing resin containing the delustering silica is formed on the decorative sheet and the ionizing radiation curing resin ink is formed into the convex pattern with no solvent by using a doctor blade and a gravure plate.

The isocyanate may be an aliphatic or aromatic dior higher functional isocyanate with an aliphatic isocyanate being preferred from the viewpoint of thermal discoloration resistance and weather resistance.Specific isocyanates usable herein include tolylene diisocyanate xylylene diisocyanate 44diphenylmethane diisocyanate hexanemethylene diisocyanate and lysine diisocyanate.

The thermal insulation element 200 of claim 13 whereinthe thermally insulating core 210 comprises polyurethane PU such as rigid polyurethane PUR or polyisocyanurate PIR.

With reference to the figure the reference numeral 1 indicates a panel structure that is impermeable to gases particularly for the insulation of buildings whose various components are shown separated from one another in the figure for a better graphical representation.

An electronic device including the target component calibration device according to claim 3.

In the embodiment and the modification exampledescribed above the chlorophyll content of a subject which is a green vegetable is detected.However instead of the chlorophyll content of the green vegetable applications to various subjects and target components such as oleic acid in meat and collagen in the skin.In short if a sample having the same components as a subject is prepared to create a calibration curve it is possible to correspond to various subjects and target components.In the embodiment and each modification example described above a configuration is adopted in which measurement is performed with the absorbance spectrum as observation data.However even if sound data in which sound emitted from a plurality of sound sources is mixed is used as the observation data instead of the absorbance spectrum it is possible to measure the magnitude of the sound from the specific sound source with the same configuration.In short in the case of a signal having a sufficient amount of information to know the statistical properties of the signal source the invention can be applied to various kinds of observation data.

A gas turbine engine assembly comprising a fan section delivering air into a main compressor section said main compressor section compressing air and delivering air into a combustion section products of combustion passing from said combustion section over a turbine section to drive said fan section and main compressor sections wherein a gearbox is driven by said turbine section to drive said fan section a pylon supporting the gas turbine engine an environmental control system including a higher pressure tap at a higher pressure location in said main compressor section and a lower pressure tap at a lower pressure location said lower pressure location being at a lower pressure than said higher pressure location said lower pressure tap communicating to a first passage leading to a downstream outlet and a compressor section of a turbocompressor said higher pressure tap leading into a turbine section of said turbocompressor such that air in said higher pressure tap drives said turbine section to in turn drive said compressor section of said turbocompressor wherein the pylon includes a lowermost surface and the higher pressure tap does not extend above a plane including the lowermost surface and a combined outlet of said compressor section and said turbine section of said turbocompressor intermixing and passing downstream to be delivered to an aircraft use.

However under certain conditions as an example a descent the valve 40 is opened the turbine section 52 is driven.The air from tap 32 passes to the compressor section 54.At such times expanding the compressed air from tap 34 lowers its temperature.Further mixing it with the lower pressure compressed air 32 even when compressed to a higher pressure by compressor section 54 may eliminate the need for a separate heat exchanger on the line 44.The intermixed air may be at a useful temperature when it reaches the combined outlet 37.The amount of air from the two taps can be varied to achieve this.

A user device comprisingan input for receiving instructionsa memory arranged to store a parameter indicative of a time delaya processor coupled to the memory for executing an uninterruptible process in response to an initial instruction being received at the input the process being executed after the time delay indicated by the parameter in memorythe processor being further arranged to determine when a subsequent instruction is received within a time periodwherein the user device is further configured to adjust the time delay parameter based on the determination of the processor.

Figure 1 shows a timing diagram showing the transmission of physical channel change requests by the decoder following a plurality of channel change requests from the subscriber via his remote control according to a standard process of the prior art.When the subscriber presses the P or P key of his remote control the decoder immediately transmits a physical channel change request to the access network.If the subscriber presses n times successively on the keys P or P of his remote control in a very short time interval to rapidly attain a given channel n physical channel change requests are transmitted to the access network although only the last of them would suffice as it contains the IP address of the last requested channel.This massive transmission of physical channel change requests creates a useless overloading even saturation of the access network.

An electrical connector according to claim 1 characterized in that an end portion of each of the conductive contacts 14 projects from one of end portions opposite to each other of the housing 11 to the outside of the housing 11 to be soldered to a circuit terminal provided on the solid circuit board on which the housing 11 is mounted and the board connecting portion 2938 of the holding member 1617 projects from the other of end portions opposite to each other of the housing 11 to the outside of the housing 11 to be soldered to the conductive portion provided on the solid circuit board on which the housing 11 is mounted.

When the handle portion 34 of the releasing member 27 is pressed toward the housing 11 as shown in Fig.17 the releasing member 27 causes the contacting portion 33 of the releasing member 27 to come into contact with the outer surface of the left end portion of the housing 11 or the outer surface of the left side portion 20 of the conductive shell 14 and causes also the connecting portion 32 of the releasing member 27 and the engaging projection 31 of the holding member 26 to shift along the second surface of the FPC 40 inserted in the housing 11 so as to go away from the FPC 40 so that the engaging projection 31 of the holding member 26 is released from the engagement with the engaging edged recess 44 provided on the FPC 40 inserted in the housing 11.

An electronics enclosure 201 as claimed in claimed 1 or claim 2 wherein said first and second ends of said heat transfer pipe are substantially flush with the outer surfaces of the electronic enclosure.

The electrical components 180 may be mounted in an interior 190 of the enclosure 100.Specifically the electrical components 180 may be mounted on a rail 200 a similar structure or directly on the support ducts 140.The rail 200 in turn may bemounted on or about the support ducts 140.The electrical components 180 may be mounted in any conventional manner.The rail 200 likewise may be made out of any substantially rigid material with good heat transfer characteristics.Other components and other configurations also may be used herein.

The web cutting system of claim 11 wherein said apertures on said roller having the vacuum source coupled thereto are segregated into first and second vacuum zones.

The fundamental difference between the arrangement according to the invention and the arrangement according to the prior art lies substantially in the manner in which the low vacuum and high vacuum conditions alternate during the advancement of the web D and the cutting of the labels E.

A wind turbine according to claim 12 or 13 wherein the instantaneous tip speed ratio is based on an average wind speed measured by the anemometer.

Another aspect of the present disclosure includes a wind turbine plant having a wind turbine having at least one blade having adjustable pitch angle that is adjusted according to an operational parameter schedule.The wind turbine includes a controller capable of determining a blade efficiency parameter in response to a wind speed and a rotor speed.The controller determines a minimum pitch angle in response to the blade efficiency parameter and maintains the pitch angle of the at least one blade in response to the blade efficiency parameter to an angle equal to or greater than the minimum pitch angle independent of the operational parameter schedule.

A method of measuring a calorific value the method measuring a calorific value of measurement target mixed gas the method comprising measuring a value of an electric signal from a heater element 61 coming in contact with gas the heater element 61 being configured to generate heat at a plurality of different temperatures and comparing a determination value with a predetermined threshold the determination value being based on a measured value of an electric signal from the heater element the heater element generating heat at a first temperature out of the plurality of different temperatures and determining if the gas is measurement target or not based on a comparison result wherein the predetermined threshold is set based on a value of an electric signal from the heater element the heater element 61 generating heat at the first temperature and being in contact with the mixed gas.

The calorific value calculation formula creation system 20 further includes a calorific value calculation formula storage device 402 connected to the CPU 300.The calorific value calculation formula storage device 402 saves the calorific value calculation formula created by the calorific value calculation formula creation module 302.Further an input device 312 and an output device 313 are connected to the CPU 300.As the input device 312 for example a keyboard a pointing device such as a mouse or the like can be used.As the output device 313 an image display devicesuch as a liquid crystal display or a monitor a printer or the like can be used.

The electronic system of any one of claims 8 to 11 wherein the electronic device comprises a mobile electronic device.

In this embodiment input other than input done in response to an input request for authentication e.g.a fingerprint of a users finger that touched a button provided with a builtin fingerprint authentication device when the user used the button to operate the device a voice of a user inputted to a microphone when the user used a voice phone via the device or made a voicecommand to the device and an image of a user captured by a camera facing towards the user when the user operates the device is used for authentication so that authentication can be performed by making use of users spontaneous operation of a device.Thus users trouble of being asked for a special operation for authentication can be reduced.This configuration also pays attention to a fact that a likelihood of a users still being the authenticated person now will change as time passes after the authentication and updates a value indicating a likelihood of being the person based on the authentication result as well as a passage of time.Therefore without having the device continuously authenticate a value indicating a likelihood of being the person can be held at somewhat appropriate level.In another words unauthorized use can be prevented without bothering a user even without putting too much load on processing capacity of an information processing device due to authentication.

Foamed insulating panel in particular extruded polystyrene panel the foamed insulating panel comprising a plurality of extruded foamed boards having main surfaces M and narrow surfaces N1 N2 wherein the plurality of extruded foam boards are joined on the main surfaces M to each other characterized in that the main surfaces M of the plurality of extruded foamed boards extend approximately in the thickness direction t of the foamed insulating panel.

Nevertheless it is preferable to make elementary panels 14 having a reduced thickness S comprised preferably between 30 mm and 100 mm.

The method according to claim 11 wherein the weather resistant layer is applied on the support by coating from an aqueous or non aqeuous coating solution.

In addition various additives can be blended to the coatingcomposition containing a hydroxylcontaining fluoropolymer according to required characteristics.Examples of additives are a curing accelerator a pigment dispersing agent a defoaming agent a leveling agent a UV absorbent a photostabilizer a thickener an adhesion improving agent and a flatting agent.

The computerimplemented method of predicting with high accuracy a descent trajectory of claim 1 wherein the optimization process 130 comprises i computing a descent trajectory 133 from the parametric AI which describes the aircraft intended descent 132 the Aircraft Performance Model APM 121 the weather data 110 and an initial aircraft state 131 by closing all AI parameters with preliminary values compliance with defined optimization constrains ii calculating an error 134 between the computed descent trajectory and the actual trajectoryiii applying an optimization algorithm 135 which modifies the value of the AI parameters and iv reformulating the parametric description of the aircraft intended descent with a new value of the AI parameters provided by the optimization algorithm.

Evolving the candidate aircraft intents may comprise evolving the instructions.For example the types ofinstructions may vary or the values an instruction defines may vary.

A method of manufacturing a fireresistant composite electrical panel according to any one of the preceding claims wherein the fire protection layer is laid directly into a mould so as to form the first layer of the layered structure.

An electrical raft or electrical raft assembly may comprise a fluid passage.Such a fluid passage may be embedded therein andor otherwise provided thereto.The fluid passage may be part of a fluid system such as a gas for example pneumatic or cooling gasair andor liquid for example a fuel hydraulic andor lubricant liquid.

The method as claimed in any preceding claim and including the server sending the code to the trusted entity in an SMS short message service message.

Fig.8 is a block diagram showing a portion of the reader 21 around a musical sound recognition section 80 therein and Fig.8 shows a microphone 81 receiving a musical sound generated by a sound source of the portable terminal 30 as an electric signal an AD conversion section 82for converting the analog signal received by the microphone 81 to a digital signal a musical sound recognition section 80 for recognizing the converted digital signal as the original musical sound signal and a transmission control section 83 for transmitting the recognized musical sound signal to the sales management server 23.The musical sound recognition section 80 comprises a memory section 85 for temporally storing when a digital signal is recognized as the original musical sound signal the digital signal for the task a musical sound recognition directory section 86 for storing standard patterns to be referred to musical sound patterns recorded in the memory section 85 and a musical sound recognition management section 87 for verifying and determining the digital signal.

The method of claim 1 wherein generating the one or more first lookup keys comprises generating at least one first lookup key based on a plurality of fields of the packet.

Dynamic rules are rules which are included with the access rules as a need arises for processing along with the access rules e.g.by a rule processing engine.Dynamic rules can include unique current information such as for example specific source and destination port numbers.They can be loaded at any time by trusted parties e.g.a trusted application remote proxy or firewall administrator to authorize specific network sessions.A dynamic rule can be set for singlesession use or its use can be limited as to time.Once a dynamic rule has served its function it can be removed from the rule set.The dynamic rules allow a given rule set to be modified based on events happening in the network without requiring that the entire rule set be reloaded.

The method according to any preceding claim wherein said constraint is that the number of acknowledgements to be transmitted corresponds to the number of control messages being a multiple of N wherein N is 2 4 or 8.

To solve this problem a DAI downlink assignment index is included in a PDCCH in a TDD system.The DAI indicates an accumulated value i.e.counted value of PDCCHs corresponding to PDSCHs from DL subframes nk kK to the currentsubframe and PDCCHs indicating SPS release.For example when three DL subframes correspond to one UL subframe PDSCHs transmitted in the three DL subframes are sequentially given indexes sequentially counted and transmitted on PDCCHs scheduling the PDSCHs.The UE can be aware that previous PDCCHs have been successfully received through DAI information included in the PDCCHs.A DAI included in a PDSCHscheduling PDCCH and SPS release PDCCH is called DAIc counter or simply DAI for convenience.

Method according to any of the previous claims characterised in that it comprises regenerating said new predetermined number of contactless transactions in the first secure element only if the communication between the first and the second secure element is established.

In another embodiment the ability of a slave application to execute transactions is restricted by means of constraints which are provided by one or more applications included in the master element 108 and which are observed by one ormore slave applications executed in the slave element 107.Particularly a master application may provide constraints for the corresponding slave application or an application of the master element 108 may provide constraints for several predetermined slave applications.In this embodiment the slave element 107 preferably disposes of a security mechanism which prevents or makes it difficult that the constraints are being avoided.However it is an advantage of this embodiment that the constraints can be defined within the communication unit 101 autonomously while in the embodiment described before the restrictions have to be made available to the terminals 102.

An operation detecting device comprising a rescan unit that sets and rescans a rescan region on an operation surface when a difference between a detection value obtained by scanning the operation surface and a predetermined reference value has a peak value with one of positive and negative signs and an absolute value thereof is greater than an absolute value of a predetermined first threshold the rescan region being set to include the detection point of the peak value with the one sign and a determination unit determining that a conductive foreign object is attached to the operation surface when a difference between a detection value obtained by rescanning the rescan region and the predetermined reference value has a peak value with another sign and an absolute value thereof is greater than an absolute value of a predetermined second threshold.

When the control unit 24 receives a detection signal from the detection unit 23 step S1 the control unit 24 determines from the raw data values whether or not a conductive foreign matter exists on the operation surface 11a step S2.When the control unit 24 determines that a foreign matter exists on the operation surface 11a step S3 YES the control unit 24 determines whether or not a flag is set to indicate that the control reference value differs from the initial reference value step S4.The flag is stored in the memory 24a.When the flag is not set step S4 NO the control unit 24 sets the control reference value to the raw data reference value for each capacitor C step S5 and sets the flag step S6.

The optical amplification stage 1 according to any one of the preceding claims wherein the optical filter 10 is a multilayer interferential filter.

To the output sections of the optical amplifierrepeaters 22 and 26 are connected 22 optical fiber couplers 23 and 27 respectively to which parts of the output lights of the optical amplifierrepeater are branched.To one each of the branch ports of the optical fiber couplers 23 and 27 are connected one or the other of wavelengthselective reflecting devices 24 and 28.The reflective center wavelength of the wavelengthselective reflecting device 24 here is identical with the wavelength of the probe light source 12 and the reflective center wavelength of the wavelengthselective reflecting device 28 is identical with the wavelength of the probe light source 32.Further the other branch port of the optical fiber coupler 23 to which no wavelengthselective reflecting device is connected and the other branch port of the optical fiber coupler 27 to which no wavelengthselective reflecting device is connected are connected to each other.

The method of claim 9 wherein the magnetic user input device is at least one finger sleeve worn on at least one finger of the user of the magnetic device or stylus.

One aspect of the present disclosure relates to an electronic device such as smartphone or tablet computer for example configured to produce a force on a magnetic tip of a stylus.The electronic device includes a drawing surface and a number of magnetic field generators that produce a magnetic field in proximity to the drawing surface.The magnetic field generators may be electric coils embedded in the drawing surface for example.Operational logic such as a processor controls the magnetic field produced by the magnetic field generators in response to the location motion orientation andor contact force of the stylus.The drawing surface may be integrated with a display of the electronic device.

A control method for heat and electric power production in a system 1 comprising a a cogenerator 5 comprisingan engine 7an electric machine 6 operated by said engine for producing electric powera converter 18 for transforming and supplying the electric power produced by said electric machine 6 b a heat pump 22 electrically supplied by said cogenerator 5 c control means 21 which control said cogenerator 5 and said heat pump 22 the method comprising the steps ofdetermining an operating point of the engine 7 corresponding to a desired operating condition for the system 1reaching said operating point by adjusting the supply to said engine 7 and by controlling said converter 18 so as to vary the resistant torque exerted by said electric machine 6 on said engine 7.

The cooling water heat exchanger 5 and exhaust gas heat exchanger 9 are connected to the air preheating heat exchanger 30 of the coolingheating unit 20 by a heat transfer line 11 through which a heat transfer medium flows so as to supply waste heat to the air preheating heat exchanger 30 during the heating operation of the coolingheating unit 20.Thus the cogeneration system recovers engine heat and exhaust gas heat preheats outdoor air through the air preheating heat exchanger 30 using the recovered heat and causes the preheated air to perform heat exchange with the outdoor heat exchanger 25 thereby preventing a degradation in the heating performance of the coolingheating unit 20 which may occur when the temperature of the outdoor air is low.

The method of claim 11 further comprising controlling a content associated with the call counterpart to be included in the content list.

In step S3 the main controller 16 determines the recipients of information content based on the type of the determined information content and the history data stored in the memory 30 wherein the history data contain transmission date recipient address emailaddress telephone number etc.transmission method PTT SMS MMS IM 3G BIuetoothIrDa etc.and type of the transmitted information content of each previous communication.For example if the game information is determined in step S2 the main controller 16 judges based on the history data whether the same game was played with other parties in a previous session and if so the members of the previous game are determined as recipients of the game information.

A power tool comprising a motor a first battery pack a second battery pack a first switching element coupled between the first battery pack and the motor a second switching element coupled between the second battery pack and the motor and a controller coupled to the first switching element and the second switching element the controller having a first pulsewidth modulation PWM output coupled to the first switching element and having a first PWM signal to selectively close the first switching element and a second PWM output coupled to the second switching element and having a second PWM signal to selectively close the second switching element.

In addition as shown in FIGs.3A to 3F with all connections formed by the connection circuit 60 the breaking switch 66 can be introduced between the battery packs 100 that are connected in series to each other.As a result the battery packs 100 can be reliably prevented from being short circuited by switching off opening the breaking switch 66 when the connection is changed.

A data security apparatus as defined in claim 9 wherein said medical data is data of a medical chart.

The present invention is directed to an information processing device capable of acquiring position information from a position information providing terminal.To achieve the above objectstheinformation processing device according to the present invention includes a data storage section an access information storage section a position information acquisition section an access determination process section and a data management section.

The combustor arrangement 10 according to claim 3 wherein the central lance body 50 comprises at least one air duct 52 53 91 152 for providing air for at least one mixer 30 between the associated first burner 20 and the associated second burner 60 wherein the air is injected into the combustor through air supply elements 33.

Combustor portion 20 also includes a plurality of outer premixed injection nozzles two of which are indicated at 80 and 81 that are disposed in an annular array radially outward from center injection nozzle 62.The term premixed injection nozzle should be understood to mean an injection nozzle in which fuel and air are mixed soas to have greater than a 50 mixedness or homogeneity.In accordance with one aspect of the exemplary embodiment premixed injection nozzles 80 and 81 have greater than 80 mixedness.As each outer premixed injection nozzle 80 81 is similarly formed a detailed description will follow with reference to premixed injection nozzle 80 with an understanding that premixed injection nozzle 81 includes corresponding structure.It should also be understood that the number of outer premixed injection nozzles can vary.

A fuel injector 10 for internal combustion engines comprising an external casing 11 provided with at least an inlet 13 and at least an outlet 14 for the fuel to be injected an obturator element 16 means 18 for moving the obturator element 16 between a closed position in which it closes the communication between the inlet 13 and the outlet 14 and an open position in which it opens the communication between the inlet 13 and the outlet 14 a fixed endrun element 21 suitable for coming into contact with the obturator element 16 in order to halt said obturator 16 in the open position and an elastomer ring 30 interposed between the obturator element 16 and the endrun element 21 characterised in that the elastomer ring 30 exhibits a transversal generating section 300 comprising at least a portion 301 having an inclined development with respect to a central axis X of the elastomer ring 30.

Furthermore a rubber seating member 29 is joined to a front end face of the valve part 26 by baking.This seating member 29 can open and close the nozzle hole 10 by being detached from and seated on the valve seat 8.A stopper rubber 30 is baked to a rear end face of the tubular sliding part 27 and when the fixed core 6 attracts the magnetic plunger 25 this stopper rubber 30 abuts against a front end face of the fixed core 6 thus making the seating member 29 detach from the valve seat 8 by a predetermined stroke.

Agricultural vehicle 1 according to any one of the previous claims wherein an overpressure detection mechanism 29 is provided at the accumulator 25 which overpressure detection mechanism is operationally connected to an overpressure valve 30 that is provided between theaccumulator 25 and the open oil reservoir 24 wherein the overpressure detection mechanism 29 is provided to open the overpressure valve 30 when an overpressure is detected.

It should be noted that the dualaction actuator device 7 can be replaced by two singleaction actuator devices connected to the body 2 of the vehicle and to the front axle 5 on opposite sides with respect to the longitudinal centreline plane L of the vehicle 1.In this case when the risk of overturning occurs the system according to the invention activates the actuator located on the side where the overturning risk exists.The force applied to the front axle 5 by the singleaction actuator devices is always directed towards the front axle 5.

The article of claim 1 wherein the tin layer is at least 0.01m thick.

Still further it is able to coat and to form the underlayer 2 the intermediate layer 3 and the outermost surface layer 4 in the above mentioned silvercoated material for the movable contact component by making use of such as the plating method a physical vapor deposition PVD method or the like.However it is further preferable to coat and form the same by making use of a wet plating method on the contrary thereto as it is more convenient and lower manufacturing cost.

An outdoor unit for an air conditioner comprising a base 180 defining a lower outer appearance of the outdoor unit a plurality of suction panels 110 forming a front surface a right side surface a left side surface and a rear surface of the outdoor unit a compressor 51 52 for compressing a refrigerant a heat exchanger 160 for heatexchanging the refrigerant at least one refrigerant tube 100 connected to the compressor 51 52 and the heat exchanger 160 a plurality of service valve assemblies 210 220 230 connected to the at least one refrigerant tube 100 and a plurality of connection tubes 250 260 270 respectively connected to a corresponding one of the plurality of service valve assemblies 210 220 230 the plurality of connection tubes extending through the base 180.

A gas tube recess 532 and a liquid tube recess 522 which have semicircular recess shapes are disposed on upper ends of the gas tube support 530 and the liquid tube support 520 respectively.The gas tube 34 and the liquid tube 32 are received in the gas tube recess and the liquid tube recess 522 respectively.Preferably the gas tube recess 532 and a liquid tube recess 522 having semicircular shapes have diameters corresponding to external diameters of the gas tube 34 and the liquid tube 32.

A method comprising conducting operations in a server 105 505 using a controller 521 of the server 105 505 the operations including generating coded image data the coded image data having data corresponding to a user login to the server 105 505 transmitting the coded image data to a client device 110 entering into a secure communication connection with a mobile tireless communications device 115 415 receiving via the secure communication connection authenticating data of the user login between the client device 110 and the server 105 505 without an authentication token being provided to the client device 110 theauthenticating data based on the coded image data transmitted to the client device 110 entering into an interactive session with the client device 110 without the authentication token being provided to the client device based on comparing the authenticating data with the data of the coded image data the interactive session corresponding to the user login and conducting a confirmation of a transaction of an application of the server 105 505 during the interactive session between the client device 110 and the server 105 505 the confirmation conducted in response to a communication from the mobile wireless communications device 115 415 to complete the confirmation the confirmation being conduced without the authentication token being provided to the client device 110.

The authentication method of the present invention consists of three phasesSETUP during this Setup phase the Master Secret is generated and all components described above are installed and all applications started.This is done only once.SECRET DISTRIBUTION the purpose of the Secret distribution phase is to compute and distribute all personal secrets to every user mobile device.This phase is run periodically for instance once a day.The personal secret that is distributed is computed using the current system date of the Trusted Server and is defined to be valid for a period of time whose length coincides with the period of the secretcomputation.For instance if this phase is run once a day then all personal secrets are valid for one day if this phase is run once a week then all personal secrets are valid for one week.AUTHENTICATION the Authentication phase is the actual authentication of the user against the authenticating system.This phase is a process that takes place in the following steps1 The user accesses the client computer and requests a login screen.2 The authenticating system serves a login screen that includes a twodimensional barcode.3 The user starts the mobile application in hisher mobile device.4 The user uses the mobile application to take a picture of the 2Dbarcode in the screen of the client computer.5 The mobile application requests the user a password in order to access the personal secret stored in the device.6 The user inputs the password and the mobile application retrieves the personal secret.7 The mobile application computes the response that corresponds to the challenge embedded in the barcode using the personal secret.8 The mobile application sends via wireless communication the tuple user ID challenge response to the URL that was embedded in the barcode.9 The authenticating system receives the tuple.10 The authenticating system processes the tuple.11 If NOK is returned the tuple is not valid and the authentication process fails and ends.12 If OK is returned the tuple is valid and the user is authenticated meaning that the authenticating system trusts that the tuple is coming from the user that corresponds to the user ID.However in order to provide access to the user the process still has to further proceed as follows.13 The authentication system looks up in its user list to see if the user ID that comes with the tuple is in the list.14 If the user ID is not in the list the user is assumed not to be authorized to access the process fails and ends.15 If the user ID is in the list the authenticating system looks up for challenge in the tuple in the session list.If the challenge that came with the tuple is not in thesession list the process fails and ends.16 If the challenge is in the session list the authenticating system pushes the welcome screen to the client computer that corresponds to the session identification number possibly a personalized welcome screen for the user ID.The process has finished successfully.

The secure access method according to Claim 2 the secure zone of the storage device 4 storing the legit app program file 5 as well as corresponding preset authentication data and a corresponding preset control regulation characterized in that step C further includeswhen the operating system 311 is accessing the secure area 41 of the storage device 4 for loading the legit app program file 5 the preset authentication data and the preset control regulation and when the legit app program file 5 is executed in the operating system 311 to serve as a legit app program transmitting the first authentication data and the first control regulation to the legit app program so as to substitute the first authentication data and the first control regulation for the preset authentication data and the preset control regulation respectively.

FIG.7 shows the configuration and operation flow of the server and information processing terminalaccording to Embodiment 4 of the present invention and corresponds to FIG.1 of Embodiment 1.Therefore the same parts as those in FIG.1 will be assigned the same reference numerals and explanations thereof will be omitted.A plurality of information processing terminals 30 are connected to server 40 via network 50.However only one information process ing terminal 30 is shown here.Server 40 is provided with storage section 402 that stores instruction document 4021 having content different from those of instruction document 1021 in FIG.1 and issue application 401 that has application management section 4011 that operates differently from application management section 1011 in FIG.1.Issue application 401 further has complexity selection section 4010.

An apparatus according to any one of claims 7 to 11 characterized in that the one or more earthfault protection settings comprise one or more settings of one of the following directional earthfault protection admittancebased earthfault protection wattmetricvarmetric earthfault protection.

Another option is to determine the total line admittance by calculating the neutral admittance based on changes in the residual current and voltage during the healthy state.These changes can be due to e.g.altering the compensation coil tuning or switching of the parallel resistor of the compensation coil on or off YFdtot3I0h2I0h1U0h2U0h1 where3I0h1residual current prior to the change during healthy state 3I0h2residual current after the change during healthy state U0h1residual voltage prior to the change during healthy state U0h2residual voltage after the change during healthy state

The gas turbine engine assembly as recited in claim 1 including a gearbox driven by a fan drive turbine of the turbine section to drive said fan section wherein the gearbox provides a gear reduction of at least 2.0.

In operation LPC bleed air is extracted through bleed valve 44 and fluidically communicated to auxiliary compressor 42 through bleed passage 40 to provide aircraft pressurization during all segments of flight.Shutoff valve 46 may be selectively opened or closed to control the bleed air flow rate to the auxiliary compressor 42.The LPC bleed air enters into an inlet of auxiliary compressor 42 and passes out an outlet of auxiliary compressor 42 into bleed passage 52 and into ECS 38.According to one embodiment during the cruising segment of the flight the engine 10 provides all of the LPC compressed air for pressurization of the aircrafts cabin.In this case the LPC bleed air is extracted from low pressure compressor 22 and flows through the auxiliary compressor 42 without substantial change to its pressure or temperature.In another embodiment the auxiliary compressor 42 adds energy to the LPC bleed air to increase pressure and temperature to suitable levels below a certain threshold before passing the conditioned LPC bleed air to the ECS 38.In one or more embodiments heat exchangers may be positioned along bleed passage 40 or bleed passage 52 in order to lower the temperature i.e.remove energy from the LPC bleed air.

A method of network bandwidth management comprising configuring packets at a node for transmission in an upstream direction wherein each of the packets is within a flow of packets and is associated with a quality of service QoS level based on a service level agreement SLA transmitting the packets within the flow of packets at a QoS level above the QoS level based on the SLA if available network bandwidth permits receiving feedback from a parent node of the node the feedback restricting the flow of packets to the QoS level based on the SLA and transmitting additional packets within the flow of packets according to a bandwidth indicated by the QoS level based on the SLA.

Other QoS parameters that may be included for reporting includes QoS class bytes sent bytes received bytes dropped packets dropped average bandwidth maximum bandwidth dropping interval average delay jitter utilization and send dropping threshold.The QoS parameters can be expanded and not limited to those listed above.

The hybrid prosthesis of claim 5 or 6 wherein the plurality of stents comprises a proximal stent positioned adjacent an attachment point between the branch and the main body of the distal graft portion.

Fig.6 shows a delivery system according to the invention to deliver the surgical stent graft.This delivery system includes a handle 3 a piece of string 5 and a shaft 4.One end of the handle is provided with a tube port 301.The string 5 is fixed at one end on the shaft 4 and at the other end on the handle 3.One end of the stent graft 6 is inserted into the tube port 301 and bound on the shaft 4 by the string 5 and said shaft 4 extends through the tube port 301 of the handle.This delivery system further comprises a core bar 7 with a core bar hole and a guide wire 8 wherein said core bar is provided with a bulletlike tip 9 at its head.Said handle 3 is provided with a through hole in which the end of said core bar 7 is fixed and external guide wire 8 can extend over the tip 9 through the core bar hole.The shaft 4 is formed by a stainless metal wire and has a ring handle 401 at its end.In operation insert the stent graft 6 into the aortic cut port to be treated fix the handle 3 by one hand and pull the stainless metal shaft 4 by the other hand and then the stent graft will release and expand automatically away from the tube port 301 of the handle.

A drilling apparatus comprising a drill rotatable about a center axis and capable of advancing and retracting along the center axis and a pressing unit for pressing a work in an advancing direction of the drill the drilling apparatus advancing the drill while rotating the drill about the center axis to form a hole in the work in a state in which the work is pressed by the pressing unit wherein a pressing force applied on the work by the pressing unit is set to a predetermined pressing force on the basis of machining reaction applied to the drill from the work during drilling and the pressing force causing deformation of the work in the advancing direction of the drill the predetermined pressing force being capable of suppressing deformation of the work and displacement of the drill due to the machining reaction the machining reaction and the pressing force being calculated in a drilling test performed in advance.

This invention relates to drills and the like.More particularly it relates to normalizing a drill bit relative to the surface of a workpiece in which a bore is to be drilled.

Permanent magnet 300 in particular manufactured according to one of claims 1 to 13 the magnet comprising a first material 119 219 shaped in a target shape 126 different from a cuboida second material 121 221 at least partially surrounding the first material wherein an outer shape of the magnet is a cuboid 124.

The present invention will now be described by way of example with reference to the accompanying drawings in whichFIG.1 is a perspective view of a powder metal rotor assembly of the present invention having a plurality of disks stacked along a shaft each having interior permanent magnets embedded by powder metal segments FIG.2 is a plan view of the rotor assembly of FIG.1 FIGS.34 are plan views of alternative embodiments of powder metal rotor assemblies of the present invention having interior permanent magnets FIG.5 is a perspective view of an insert for use in a method of the present invention FIG.6 is a perspective view of an inner bowl and outer bowl of a hopper that may be used for the filling aspect of the present invention FIGS.7A7E are crosssectional schematic views of a method of the present invention using the insert of FIG.5 and the hopper of FIG.6 to produce the rotor assembly of FIGS.1 and 2 FIG.8 is a perspective view of an insert for use in an alternative method of the present invention and FIGS.9A9C are crosssectional schematic views of the present invention using the insert of FIG.8 and the hopper of FIG.6 to produce the rotor assembly of FIGS.1 and 2.

A display device 10 comprising a display module 10B and a back cover 130 provided in a rear of the display module wherein the display module 10B includes a display panel 100 that includes a front substrate and a back substrate positioned opposite the front substrate a film 400 at a front surface of the front substrate and a frame 120 provided in rear of the back substrate wherein the film 400 includes a first part to cover the front surface of the front substrate a second part to extend from the first part and to cover a side of the display module 10B and a third part to extend from the second part wherein at least a portion of the first part and the second part of the film is exposed wherein at least one fastening member fasten at least portion of the third part to the frame wherein the fastening member is covered with the back cover 130.

In this instance the back cover 130 the side cover 4400 and the frame 1600 may be fastened to one another using a fastening member 9300 9301.In this instance the back cover 130 the side cover 4400 and the frame 1600 may be electrically connected to one another using the fasteningmember 9300 9301.Hence electromagnetic interference EMI may be reduced.In this case the side cover 4400 includes hole the frame 1600 includes hole corresponding to the hole of the side cover 4400 and the back cover 130 includes hole corresponding to the hole of the side cover 4400 and the hole of the frame 1600.And the fastening member 9300 9301 penetrates the hole of the side cover 4400 the hole of the frame 1600 and hole of the back cover 130.