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    • 1. 发明授权
    • Method and programmable apparatus for quantum computing
    • 用于量子计算的方法和可编程装置
    • US07133888B2
    • 2006-11-07
    • US10780292
    • 2004-02-17
    • Wolf KohnAnil Nerode
    • Wolf KohnAnil Nerode
    • G06F17/13
    • G06N99/002B82Y10/00
    • A method and apparatus for quantum computing. A computer-program source code, data, and unsubstantiated output variables are converted into a class of computable functions by a program compiler. The computable functions are encoded, and a continualization method is applied to the encoded functions to determine a first-order, time-dependent, differential equation. Variational calculus is employed to construct a Lagrangian whose minimum geodesic is the solution for the first-order, time-dependent, differential equation. The Lagrangian is converted into a quantum, canonical, Hamiltonian operator which is realized as an excitation field via an excitation generator. The excitation field is repeatedly applied to a quantum processor consisting of a lattice of polymer nodes to generate an intensity-versus-vibrational-frequency spectrum of the lattice nodes. The average vibrational spectrum intensity values are used as coefficients in an approximating polynomial of the encoding function to determine the substantiated output variables, or program output.
    • 一种用于量子计算的方法和装置。 计算机程序源代码,数据和未经证实的输出变量由程序编译器转换为一类可计算的函数。 对可计算的函数进行编码,并且将连续化方法应用于编码函数以确定一阶时间依赖的微分方程。 变分微积分用于构造拉格朗日,其最小测地线是一阶时间依赖微分方程的解。 拉格朗日转换成量子,规范的哈密尔顿算子,其通过激发发生器被实现为激励场。 激发场被重复地施加到由聚合物节点的格子组成的量子处理器,以产生格子节点的强度对振动频谱。 将平均振动光谱强度值用作编码函数的近似多项式中的系数,以确定证实的输出变量或程序输出。
    • 2. 发明授权
    • Multiple-agent hybrid control architecture for intelligent real-time
control of distributed nonlinear processes
    • 多代理混合控制架构,用于分布式非线性过程的智能实时控制
    • US5963447A
    • 1999-10-05
    • US916418
    • 1997-08-22
    • Wolf KohnAnil Nerode
    • Wolf KohnAnil Nerode
    • G06F15/16G05B13/02G05B19/418G06F9/44G06F9/46G06N5/04
    • G05B19/41865G06N5/043G05B2219/33055G05B2219/33065G05B2219/33073Y02P90/18Y02P90/20
    • A Multiple-Agent Hybrid Control Architecture (MAHCA) uses agents to analyze design, and implement intelligent control of distributed processes. A network of agents can be configured to control more complex distributed processes. The network of agents interact to create an emergent global behavior. Global behavior is emergent from individual agent behaviors and is achieved without central control through the imposition of global constraints on the network of individual agent behaviors. Agent synchronization can be achieved by satisfaction of an interagent invariance principle. At each update time, the active plan of each of the agents in the network encodes equivalent behavior modulo a congruence relation determined by the knowledge clauses in each agents's knowledge base. The Control Loop and the Reactive Learning Loop of each agent can be implemented separately. This separation results in an implementation runs faster and with less memory requirements than an unseparated arrangement. A Direct Memory Map (DMM) is to implement the agent architecture. The DMM is a procedure for transforming knowledge and acts as a compiler of agent knowledge by providing a data structure called memory patches, which are used to organize the knowledge contained in each agent's Knowledge Base. Content addressable memory is used as the basic mechanism of the memory patch structure. Content addressable memory uses a specialized register called the comparand to store a pattern that is compared with contents of the memory cells. The DMM has two comparands, the Present State Comparand and the Goal Comparand. The MAHCA can be used for compression/decompression for processing and storage of audio or video data.
    • 多代理混合控制架构(MAHCA)使用代理分析设计,实现分布式进程的智能控制。 代理网络可以配置为控制更复杂的分布式进程。 代理网络互动,创造出一种紧急的全球行为。 全球行为是从个人代理行为中出现的,并且通过对个人代理行为的网络施加全局约束而实现没有中央控制。 代理同步可以通过满足代理不变性原则来实现。 在每个更新时间,网络中每个代理的活动计划编码由每个代理的知识库中的知识子句确定的等同关系模式的等效行为。 每个代理的控制循环和反应学习循环可以单独实现。 这种分离导致实现运行速度更快,并且具有比未分离安排更少的内存要求。 直接内存映射(DMM)是实现代理架构。 DMM是通过提供称为内存补丁的数据结构来转换知识并作为代理知识的编译器的过程,用于组织每个代理的知识库中包含的知识。 内容可寻址内存被用作内存补丁结构的基本机制。 内容可寻址存储器使用称为比较的专用寄存器来存储与存储器单元的内容进行比较的模式。 DMM有两个比较,即现状比较和目标比较。 MAHCA可用于压缩/解压缩以处理和存储音频或视频数据。
    • 3. 发明授权
    • Multiple-agent hybrid control architecture for intelligent real-time
control of distributed nonlinear processes
    • 多代理混合控制架构,用于分布式非线性过程的智能实时控制
    • US6088689A
    • 2000-07-11
    • US564008
    • 1995-11-29
    • Wolf KohnAnil NerodeJohn James
    • Wolf KohnAnil NerodeJohn James
    • G06F15/16G05B13/00G05B13/02G05B19/414G05B19/418G06F9/44G06F9/46G06F15/18G06N5/04
    • G05B19/41865G05B13/0265G05B19/4148G06N5/043G05B2219/33055G05B2219/33068G05B2219/33073G05B2219/33277Y02P90/18Y02P90/20
    • A Multiple-Agent Hybrid Control Architecture (MAHCA) uses agents to analyze design, and implement intelligent control of distributed processes. A single agent can be configured to control a local process and a network of agents can be configured to control more complex distributed processes. Multiple agents interact through messages and can be either permanent or temporary. The network of agents interact to create an emergent global behavior. The network of agents support construction of closed-loop, autonomous systems which react to comply with two degrees of freedom: (1) a logic degree of freedom (useful for implementing switching between modes of control) and (2) an evolution degree of freedom (useful for implementing particular modes of control). Global behavior is emergent from individual agent behaviors and is achieved without central control through the imposition of global constraints on the network of individual agent behaviors (the logic agent network). MAHCA is especially useful for reactive synchronization of real-time distributed processes subject to decision-making under uncertainty where both logical and evolution constraints on system operation must be continuously maintained and where human operators must be kept appraised of current system operation and whose decisions must be promptly and safely executed. MAHCA also provides support for reuse of existing trusted components and incremental provision of expanded functionality in old or new components through formal construction of provably correct real-time software from declarations of desired logic and evolution behavior of system components. Finally, MAHCA agents can be used in conventional digital procedures to speed up an ensemble of procedures.
    • 多代理混合控制架构(MAHCA)使用代理分析设计,实现分布式进程的智能控制。 可以将单个代理配置为控制本地进程,并且可以将代理网络配置为控制更复杂的分布式进程。 多个代理通过消息交互,可以是永久的或临时的。 代理网络互动,创造出一种紧急的全球行为。 代理网络支持闭环自治系统的建设,这些系统对两个自由度有反应:(1)逻辑自由度(用于实现控制模式之间切换)和(2)进化自由度 (用于实现特定的控制模式)。 全局行为是从个体代理行为出现的,并且通过对个人代理行为网络(逻辑代理网络)施加全局约束而实现无中央控制。 MAHCA对于不确定性下的决策制定的实时分布式过程的反应同步特别有用,其中系统运行的逻辑和演化限制必须持续保持,并且必须对人员操作人员进行现行系统运行评估,其决策必须 及时安全执行。 MAHCA还通过从声明所需的逻辑和系统组件的演进行为的形式构建可证明的正确的实时软件,为现有可信组件的重用以及旧组件或新组件中扩展功能的增量提供支持。 最后,MAHCA代理可以用于传统的数字程序来加快程序的集合。
    • 4. 发明申请
    • Method and programmable apparatus for quantum computing
    • 用于量子计算的方法和可编程装置
    • US20050015422A1
    • 2005-01-20
    • US10780292
    • 2004-02-17
    • Wolf KohnAnil Nerode
    • Wolf KohnAnil Nerode
    • G06F7/38G06N99/00
    • G06N99/002B82Y10/00
    • A method and apparatus for quantum computing. A computer-program source code, data, and unsubstantiated output variables are converted into a class of computable functions by a program compiler. The computable functions are encoded, and a continualization method is applied to the encoded functions to determine a first-order, time-dependent, differential equation. Variational calculus is employed to construct a Lagrangian whose minimum geodesic is the solution for the first-order, time-dependent, differential equation. The Lagrangian is converted into a quantum, canonical, Hamiltonian operator which is realized as an excitation field via an excitation generator. The excitation field is repeatedly applied to a quantum processor consisting of a lattice of polymer nodes to generate an intensity-versus-vibrational-frequency spectrum of the lattice nodes. The average vibrational spectrum intensity values are used as coefficients in an approximating polynomial of the encoding function to determine the substantiated output variables, or program output.
    • 一种用于量子计算的方法和装置。 计算机程序源代码,数据和未经证实的输出变量由程序编译器转换为一类可计算的函数。 对可计算的函数进行编码,并且将连续化方法应用于编码函数以确定一阶时间依赖的微分方程。 变分微积分用于构造拉格朗日,其最小测地线是一阶时间依赖微分方程的解。 拉格朗日转换成量子,规范的哈密尔顿算子,其通过激发发生器被实现为激励场。 激发场被重复地施加到由聚合物节点的格子组成的量子处理器,以产生格子节点的强度对振动频谱。 将平均振动光谱强度值用作编码函数的近似多项式中的系数,以确定证实的输出变量或程序输出。