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    • 1. 发明专利
    • Crossover node selection method, and relay node used in the method
    • CROSSOVER节点选择方法和方法中使用的继电器节点
    • JP2008283417A
    • 2008-11-20
    • JP2007125182
    • 2007-05-10
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • KAMI TOYOKIHORI TAKAKO
    • H04W28/26H04W36/12H04W36/36H04W80/04
    • PROBLEM TO BE SOLVED: To provide a crossover node selection method and the like capable of evading the double reservation of resources and minimizing the interruption of QoS by handover.
      SOLUTION: The crossover node selection method includes: a step of having the relay node which receives an acquisition message for acquiring the information of the crossover node of each of a plurality of network layers judge whether or not the relay node itself is the crossover node of one of the plurality of network layers and transmit the acquisition message to which the information of itself is inserted to an adjacent relay node when judging that it is the crossover node; a step of having a communication terminal 101 which receives the acquisition message to which the information of the crossover node of each of the plurality of network layers is inserted transmit a response message including the information inserted to the acquisition message to a mobile terminal 100; and a step of having the mobile terminal select one crossover node on the basis of the information inserted to the response message.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供能够避免资源的双重预留并且通过切换最小化QoS中断的交叉节点选择方法等。 交叉节点选择方法包括:使接收到用于获取多个网络层中的每一个的交叉节点的信息的获取消息的中继节点判断中继节点本身是否为 当判断为交叉节点时,将其自身的信息插入到相邻的中继节点的采集消息发送给多个网络层之一的交叉节点; 接收通信终端101的步骤,该通信终端101接收多个网络层中的每一个的交叉节点的信息所在的获取消息,将包括插入到获取消息中的信息的响应消息发送到移动终端100; 以及使移动终端基于插入到响应消息中的信息来选择一个交叉节点的步骤。 版权所有(C)2009,JPO&INPIT
    • 2. 发明专利
    • Image processing apparatus
    • 图像处理设备
    • JP2008283338A
    • 2008-11-20
    • JP2007124200
    • 2007-05-09
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • EGAWA MANABUNADAMOTO YUJIKASAI SHUICHI
    • H04N1/393G06T3/40G09G5/36
    • PROBLEM TO BE SOLVED: To dynamically process a featured area according to the recognition degree by a user. SOLUTION: An image processing apparatus (101) is provided with: an object extraction section (103) for integrating an input image signal into digital data, and for extracting the featured area; a recognition difficulty calculation section (104) for calculating the recognition difficulty of the extracted object; a processing control section (105) for calculating processing coefficients according to the calculated recognition difficulty; and a processing section (106) for processing the featured area by using the processing coefficients, and for superimposing it with the input image signal for output. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:根据用户的识别度动态处理特征区域。 解决方案:图像处理装置(101)具有:将输入图像信号合成为数字数据并提取特征区域的对象提取部(103) 识别难度计算部(104),用于计算提取对象的识别难度; 处理控制部(105),用于根据计算出的识别难度计算处理系数; 以及处理部(106),用于通过使用处理系数来处理特征区域,并且将其与输入图像信号叠加输出。 版权所有(C)2009,JPO&INPIT
    • 3. 发明专利
    • Imaging device, image output method, integrated circuit
    • 成像装置,图像输出方法,集成电路
    • JP2008283329A
    • 2008-11-20
    • JP2007124131
    • 2007-05-09
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • MOTODA KAZUMA
    • H04N5/232H04N5/225H04N5/243
    • PROBLEM TO BE SOLVED: To solve the problem wherein the output frame rate declines and the high luminance part becomes overexposure, when a plurality of frames are added to achieve a high sensitivity facility at an image device.
      SOLUTION: A video signal of (α-1)/α times of a video signal read with high sensitivity of α times from a frame memory portion 112 is added to a video signal from an image pick-up portion 110 at a summing portion 114 to obtain a signal. Level conversion for compressing gradation of the high luminance part is applied to the obtained signal at a level conversion portion 115. The result is written to the frame memory portion 112 in units of frames for update. According to the arrangement, high sensitivity of N times is realized for the low luminance part, while overexposure is suppressed for the high luminance part.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题为了解决输出帧速率下降并且高亮度部分变得过度曝光的问题,当添加多个帧以在图像设备上实现高灵敏度设备时。 解决方案:从帧存储器部分112以高达α倍的高灵敏度读取的视频信号的(α-1)/α倍的视频信号被加到来自图像拾取部分110的视频信号 求和部分114以获得信号。 将用于压缩高亮度部分的灰度的电平转换在电平转换部分115处被应用于所获得的信号。结果以用于更新的帧为单位被写入帧存储器部分112。 根据该结构,对于低亮度部分实现N次的高灵敏度,同时对于高亮度部分抑制过度曝光。 版权所有(C)2009,JPO&INPIT
    • 4. 发明专利
    • Unbalanced feed wide-band slot antenna
    • 不平衡进料宽带天线
    • JP2008283251A
    • 2008-11-20
    • JP2007123204
    • 2007-05-08
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • SUGANO HIROSHIFUJISHIMA TAKEYASU
    • H01Q13/10H01Q5/00H01Q5/10H01Q5/25H01Q5/307H01Q5/35H01Q5/50H01Q9/28
    • H01Q13/10H01Q13/106
    • PROBLEM TO BE SOLVED: To solve the problem that it is difficult to control so that a small-sized slot antenna is operated over a wide band, the main beam direction is kept in the same direction in the band, and the main beam half-value width is not unnecessarily varied. SOLUTION: Disclosed is the 1/4-effective-wavelength slot antenna which makes a ground conductor 103 having finite area function as a dipole, where a portion of a feed line 113 in an region of intersection with the sot 111 is formed in a loop shape 123, side edges 15c and 15d of the ground conductor 103 are partially bent toward the slot 111 before reaching a ground conductor outer edge 105a on a side in a depth direction 109a from a ground conductor outer edge 105a on a side in a main beam direction 109a, and a portion of the ground conductor is partially cut in an area 105bco. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题为了解决难以控制以使小尺寸的缝隙天线在宽带上操作的问题,主波束方向在带中保持在相同的方向,主 光束半值宽度不会被不必要地变化。 解决方案:公开了形成具有有限面积功能的接地导体103的1/4有效波长缝隙天线作为偶极子,其中形成与声音111的交叉区域中的馈电线113的一部分 在环形123中,接地导体103的侧边缘15c和15d在到达深度方向109a的一侧的接地导体外边缘105a之前从接地导体外边缘105a侧面向槽111部分弯曲 主波束方向109a和接地导体的一部分在区域105bco中被部分切割。 版权所有(C)2009,JPO&INPIT
    • 5. 发明专利
    • Gradation correcting device
    • 分级校正装置
    • JP2008283250A
    • 2008-11-20
    • JP2007123192
    • 2007-05-08
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • ABE HIDEKIOKAWA NAOTO
    • H04N5/20
    • PROBLEM TO BE SOLVED: To provide such a gradation correcting device that side effects such as a luminance difference in a HALO shape and a false outline at a periphery of an outline etc., and unnatural detail loss due to an adaptation miss of an adaptive LPF are inconspicuous.
      SOLUTION: The gradation correcting device comprises an adaptive LPF means having an LPF (low-pass filter) whose characteristics vary with an input signal, a gradation correcting means of inputting the output of the adaptive LPF means and performing gradation correction processing, a difference means of calculating the difference between the output of the adaptive LPF means and the input signal, and an adding means of outputting the sum of the output of the gradation correcting means and the output of the difference means.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了提供这样的灰度校正装置,其在诸如轮廓等的外围的HALO形状和假轮廓之间的亮度差等副作用,以及由于适配缺失引起的不自然的细节损失 自适应LPF不显眼。 解决方案:灰度校正装置包括具有随输入信号变化的LPF(低通滤波器)的自适应LPF装置,输入自适应LPF装置的输出并执行灰度校正处理的灰度校正装置, 计算自适应LPF装置的输出与输入信号之间的差的差值装置,以及输出灰度校正装置的输出和差分装置的输出之和的相加装置。 版权所有(C)2009,JPO&INPIT
    • 6. 发明专利
    • Electrochemical energy storage device
    • 电化学能源储存装置
    • JP2008283048A
    • 2008-11-20
    • JP2007126876
    • 2007-05-11
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • MATSUI TORUDEGUCHI MASAKIYOSHIZAWA KOJI
    • H01G11/06H01G11/22H01G11/30H01G11/32H01G11/38H01G11/54H01G11/62H01G11/86H01M10/0568H01M10/0569
    • Y02E60/13
    • PROBLEM TO BE SOLVED: To provide an electrochemical energy storage device which has a negative electrode made principally of a carbon material capable of occluding and discharging lithium ions and uses a nonaqueous electrolyte containing ammonium salt having spiro cations, an organic solvent, and lithium salt, the electrochemical energy storage device being high in set voltage and increased in energy density. SOLUTION: The electrochemical energy storage device has a positive electrode and the negative electrode made principally of the carbon material capable of occluding and discharging lithium ions, and the nonaqueous electrolyte, which is prepared by dissolving lithium salt and ammonium salt having spiro cations in a nonaqueous solvent, where anions of the lithium salt and ammonium salt are at least one kind of ions selected from a group of bis[trifluoromethane sulfonyl]imide ions, perchlorate ions, and bis[oxalate(2-)]borate ions. COPYRIGHT: (C)2009,JPO&INPIT
    • 解决的问题:提供一种电化学储能装置,其具有主要由能够吸收和释放锂离子的碳材料制成的负极,并且使用含有具有螺阳离子的铵盐的非水电解质,有机溶剂和 锂盐,电化学储能装置的设定电压高,能量密度增加。 解决方案:电化学蓄电装置具有正极,负极主要由能够吸留和释放锂离子的碳材料制成,并且通过溶解具有螺阳离子的锂盐和铵盐制备的非水电解质 在非水溶剂中,其中锂盐和铵盐的阴离子是选自双[三氟甲磺酰基]酰亚胺离子,高氯酸根离子和双[草酸(2 - )]硼酸根离子中的至少一种离子。 版权所有(C)2009,JPO&INPIT
    • 7. 发明专利
    • Semiconductor device, and method of forming capacity thereof
    • 半导体器件及其形成能力的方法
    • JP2008282884A
    • 2008-11-20
    • JP2007123993
    • 2007-05-08
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • TAKEDA HIDENORITAMURA AKIYOSHI
    • H01L21/8242H01L21/822H01L27/04H01L27/108
    • PROBLEM TO BE SOLVED: To provide a method of forming a capacity of a semiconductor device by which the semiconductor device including a capacity element can be manufactured inexpensively.
      SOLUTION: This method is used to form a capacity of a semiconductor wherein at least a transistor and a capacity element are arranged on a GaAs semiconductor substrate 3. It includes: a step 1 to make at least two holes with different depths, a groove 6 and a via hole 7 in the GaAs substrate 3 at the same time; a step 2 to form a capacity structure as an electrode of the capacity element at the same time on the GaAs semiconductor substrate 3 and inside the groove 6 and the via hole 7; and a step 3 to polish the rear surface of the GaAs semiconductor substrate 3 after the step 2.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 解决的问题:提供一种能够廉价地制造包括电容元件的半导体器件的半导体器件的容量的形成方法。 解决方案:该方法用于形成其中至少一个晶体管和电容元件布置在GaAs半导体衬底3上的半导体的容量。它包括:步骤1,制造具有不同深度的至少两个孔, GaAs衬底3中的槽6和通孔7; 步骤2,在GaAs半导体衬底3上以及槽6和通孔7中同时形成作为电容元件的电极的电容结构; 以及在步骤2之后抛光GaAs半导体衬底3的后表面的步骤3。版权所有(C)2009,JPO&INPIT
    • 8. 发明专利
    • Humidification device for fuel cell
    • 燃料电池的湿度装置
    • JP2008282740A
    • 2008-11-20
    • JP2007127237
    • 2007-05-11
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • KAWABATA NORIHIKOMORIMOTO TAKASHIYOSHIMURA MITSUOMATSUMOTO TOSHIHIROTATSUI HIROSHI
    • H01M8/04F24F6/04H01M8/10
    • Y02P70/56
    • PROBLEM TO BE SOLVED: To provide a humidification device for a fuel cell capable of surely preventing leakage of a humidification object gas and a humidification fluid without degrading energy efficiency of the whole of a fuel cell system, of reducing size and cost of itself, of stabilizing quality in manufacturing, and of improving humidification performance. SOLUTION: A seal part 16 having annular seal parts 16a and 16b is arranged on both surfaces of a peripheral part of a humidification film 20; the annular seal part 16a of the seal part 16 arranged on a first frame body 11 side is fixed to a peripheral part of a first fluid passage 12; a seal plate 18 sealing the peripheral part of the humidification film 20 is arranged on an outer edge part of the seal part 16; the annular seal part 16b arranged on a second frame body 21 side contacts the second frame body 21; and thereby the seal part 16 seals the humidification object gas passage 12 formed on the first frame body 11 and a humidification gas passage 22 formed on the second frame body 21 to prevent the humidification object gas and the humidification fluid from leaking to the outside. COPYRIGHT: (C)2009,JPO&INPIT
    • 解决问题:为了提供一种能够确实地防止加湿对象气体和加湿流体的泄漏而不降低燃料电池系统整体的能量效率的燃料电池的加湿装置,其尺寸和成本降低 本身,稳定制造质量,提高加湿性能。 解决方案:具有环形密封部分16a和16b的密封部分16布置在加湿膜20的周边部分的两个表面上; 布置在第一框体11侧的密封部16的环状密封部16a固定在第一流体通路12的周边部; 在密封部16的外缘部配置密封加湿膜20的周缘部的密封板18, 布置在第二框体21侧的环形密封部16b与第二框体21接触; 从而密封部分16密封形成在第一框体11上的加湿对象气体通道12和形成在第二框体21上的加湿气体通道22,以防止加湿对象气体和加湿流体泄漏到外部。 版权所有(C)2009,JPO&INPIT
    • 9. 发明专利
    • Manganese dry cell
    • 马来西亚干细胞
    • JP2008282727A
    • 2008-11-20
    • JP2007126920
    • 2007-05-11
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • MURAKAMI HAJIME
    • H01M6/08H01M2/16
    • Y02E60/12
    • PROBLEM TO BE SOLVED: To provide a manganese dry cell in which variations in open-circuit voltage is contained from immediately after manufacture and prompt judgement on the quality of the product can be made, and which is superior in a heavy load discharge performance.
      SOLUTION: The manganese dry cell is provided with a negative electrode zinc can 4 of bottomed cylindrical shape, a positive electrode mixture 1 containing manganese dioxide housed in the negative electrode zinc can 4, and a separator 3 which is arranged between the negative electrode zinc can 4 and the positive electrode mixture 1 and is made of a paper coated with a paste material. The separator 3 contains bismuth of 0.01-0.05 pts.wt. per 100 pts.wt. of dry solid component in the paste material as a bismuth compound of water insolubility.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了提供从制造后立即包含开路电压变化的锰干电池,可以对产品的质量进行迅速判断,并且在重负载放电 性能。 解决方案:锰干电池设有底部圆筒形状的负极锌罐4,容纳在负极锌罐4中的含有二氧化锰的正极混合物1和设置在负极锌罐4之间的隔板3 电极锌罐4和正极混合物1,并由涂有糊料的纸制成。 分离器3含有0.​​01-0.05重量份的铋 每100 pts.wt 的干固体组分在糊状物中作为水不溶性的铋化合物。 版权所有(C)2009,JPO&INPIT
    • 10. 发明专利
    • Microwave heating apparatus
    • 微波加热装置
    • JP2008282693A
    • 2008-11-20
    • JP2007126276
    • 2007-05-11
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • IMAI HIROHISAYOSHINO KOJIUEDA SANENORISANO MASAAKI
    • H05B6/74F24C7/02H05B6/72
    • PROBLEM TO BE SOLVED: To provide a microwave heating apparatus which normally performs uniform heating in the whole heating chamber, and according to a specific purpose, also performs locally concentrated heating.
      SOLUTION: The microwave heating apparatus comprises a microwave generating means 32, a plurality of rotary antennas 38, 39 to irradiate microwaves, drive means 40, 41 to rotation-drive the rotary antennas, a temperature distribution detection means 10 to detect temperature distribution in the heating chamber, and a control means 411 to control the microwave generating means and the drive means. The control means has a center heating mode to direct a portion with the strong irradiation directionality of at least one rotary antenna out of the plurality of antennas to the center of the heating chamber and a local heating control mode to control a portion with the strong irradiation directionality to a direction determined based on the detection result of the temperature distribution detection means and heat a local part. The control means starts heating by the center heating mode at the start of heating and switches to the local heating control mode from a middle way.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了提供在整个加热室中通常进行均匀加热的微波加热装置,并且根据具体目的,还执行局部集中加热。 解决方案:微波加热装置包括微波产生装置32,多个旋转天线38,39以照射微波,驱动装置40,41旋转驱动旋转天线,温度分布检测装置10以检测温度 分配在加热室中,控制装置411控制微波产生装置和驱动装置。 控制装置具有中心加热模式,以将具有至少一个旋转天线的强照射方向性的部分从多个天线引出到加热室的中心,并且具有局部加热控制模式以控制具有强辐射的部分 指向基于温度分布检测装置的检测结果确定的方向并加热局部部分。 控制装置在加热开始时通过中央加热模式开始加热,并从中途切换到局部加热控制模式。 版权所有(C)2009,JPO&INPIT