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    • 1. 发明申请
    • ULTRASOUND BEAMFORMER WITH INDIVIDUAL ARRAY ELEMENT MULTIPLEXERS
    • 具有独立阵列元件的超声波射束机多路复用器
    • WO2013188817A1
    • 2013-12-19
    • PCT/US2013/045972
    • 2013-06-14
    • UNIVERSITY OF SOUTHERN CALIFORNIA
    • YEN, Jesse
    • A61B8/00H04R17/00
    • G10K11/34G01S7/5202G01S15/8915G10K11/346
    • An ultrasound beamformer may include an array of ultrasound transducer elements. Multiple signal transmitters may each generate an ultrasound signal that is different from the ultrasound signal generated by each of the others. The number of ultrasound transmitters may be no more than half the number of ultrasound transducer elements. Each multiplexer may have multiple signal inputs, each connected to a different one of the ultrasound signals; an output that drives the ultrasound transducer element; and a control input that controls which of the ultrasound signals at the signal inputs to the multiplexer is delivered to the output of the multiplexer based on a control signal. The controller may generate the control signals with a collective configuration that causes the array of ultrasound transducer elements to steer an/or focus a beam of ultrasound energy in one or more different ways at one or more different times.
    • 超声波波束形成器可以包括超声换能器元件阵列。 多个信号发射器可以各自产生不同于其他每个信号产生的超声信号的超声信号。 超声波发射器的数量可以不超过超声换能器元件数量的一半。 每个多路复用器可以具有多个信号输入,每个信号输入连接到不同的一个超声信号; 驱动超声换能器元件的输出; 以及控制输入,其基于控制信号控制在多路复用器的信号输入处的哪些超声信号被传送到多路复用器的输出。 控制器可以产生具有集体配置的控制信号,其使得超声换能器元件阵列在一个或多个不同时间以一种或多种不同方式引导/聚焦超声能量束。
    • 2. 发明申请
    • OPTIMAL STRATEGIES IN SECURITY GAMES
    • 安全游戏中的最佳策略
    • WO2013176784A1
    • 2013-11-28
    • PCT/US2013/034854
    • 2013-04-01
    • UNIVERSITY OF SOUTHERN CALIFORNIA
    • TAMBE, MilindORDÓÑEZ, FernandoYANG, RongYIN, ZhengyuBROWN, MatthewAN, BoKIEKINTVELD, Christopher
    • G06F21/00G06F9/44
    • G06Q10/0637G06F17/11G06F21/00G06N7/005G06Q10/067H04L9/002
    • Different solution methodologies for addressing problems or issues when directing security domain patrolling strategies according to attacker-defender Stackelberg security games. One type of solution provides for computing optimal strategy against quantal response in security games, and includes two algorithms, the GOSAQ and PASAQ algorithms. Another type of solution provides for a unified method for handling discrete and continuous uncertainty in Bayesian Stackelberg games, and introduces the HUNTER algorithm. Another solution type addresses multi-objective security games (MOSG), combining security games and multi- objective optimization. MOSGs have a set of Pareto optimal (non-dominated) solutions referred to herein as the Pareto frontier. The Pareto frontier can be generated by solving a sequence of constrained single-objective optimization problems (CSOP), where one objective is selected to be maximized while lower bounds are specified for the other objectives. Specific examples of applications to security domains are described.
    • 根据攻击者防御者Stackelberg安全游戏指导安全域巡逻策略时,解决问题或问题的不同解决方法。 一种类型的解决方案提供了针对安全游戏中的量化响应的计算最优策略,并且包括两种算法:GOSAQ和PASAQ算法。 另一种类型的解决方案提供了一种用于处理贝叶斯Stackelberg游戏中离散和连续不确定性的统一方法,并介绍了HUNTER算法。 另一种解决方案类型涉及多目标安全游戏(MOSG),结合安全游戏和多目标优化。 MOSG具有一组帕累托最优(非主导)解决方案,这里称为帕累托前沿。 帕累托边界可以通过解决一系列约束单目标优化问题(CSOP)来生成,其中一个目标被选择为最大化,而下限被指定用于其他目标。 描述了对安全域的应用的具体示例。
    • 9. 发明申请
    • HEALTH CARE INFORMATION SYSTEMS USING OBJECT IDENTIFIERS DEVOID OF PERSONAL HEALTH INFORMATION
    • 卫生保健信息系统使用对象标识符个人健康信息
    • WO2010135578A2
    • 2010-11-25
    • PCT/US2010/035654
    • 2010-05-20
    • KESSELMAN, CarlERBERICH, Stephan, G.SIEBENLIST, FrankSUN, Sam, X.CZAJKOWSKI, KarlPEARLMAN, Laura
    • KESSELMAN, CarlERBERICH, Stephan, G.SIEBENLIST, FrankSUN, Sam, X.CZAJKOWSKI, KarlPEARLMAN, Laura
    • G06Q50/00G06F21/24H04L9/00
    • G06Q50/22G06F19/00G06F21/6245G06Q10/10
    • A health care information provider system may provide information about health care objects managed by a health care provider. A name generating system may generate an object name for each of the health care objects. The object name of each health care object may include provider information indicative of the identity of the health care provider which manages the health care object. The object name of each health care object may include object information indicative of the identity of the health care object. The object information not be devoid of any personal health information, even in a form which can be decrypted by a decryption key. An object resolution system may receive object information indicative of the identity of each health care object and provide information about the health care object in response. The object resolution system may include location information correlating the object information for each object to information indicative of the location of the information about each health care object within the health care provider. A communication system may receive the object information from a health care information access system and, in response, provide the information about the health care object, named in part with the object information, to the health care information access system.
    • 医疗保健信息提供者系统可以提供有关医疗保健提供者管理的保健对象的信息。 名称生成系统可以为每个保健对象生成对象名称。 每个保健对象的对象名称可以包括指示管理医疗保健对象的医疗保健提供者的身份的提供者信息。 每个保健对象的对象名称可以包括指示保健对象的身份的对象信息。 对象信息不是没有任何个人健康信息,即使是可以通过解密密钥解密的形式。 对象解析系统可以接收指示每个保健对象的身份的对象信息,并且响应地提供关于保健对象的信息。 对象分辨率系统可以包括将每个对象的对象信息与指示医疗保健提供者内关于每个保健对象的信息的位置的信息相关联的位置信息。 通信系统可以从医疗保健信息访问系统接收对象信息,并且作为响应,向医疗保健信息访问系统提供关于被保护对象信息部分地命名的医疗保健对象的信息。