公开(公告)号：US20120116742A1

公开(公告)日：2012-05-10

申请号：US13253035

申请日：2011-10-04

申请人： Adityo Prakash ,  David Kita ,  Eniko Fodor

发明人： Adityo Prakash ,  David Kita ,  Eniko Fodor

IPC分类号： G06G7/48

CPC分类号： G16B50/00 ,  G16B15/00

摘要： Method and apparatus for the efficient computation of values for affinity functions for two or more molecular subsets of a molecular configuration, are provided. Either one or both of molecular subsets may be selected from a molecule library. Affinity engines can compute the affinity values, and can be synchronized in order to maximize utilization of processing power available in the affinity engines. A data path allocator can apportion molecular descriptor data to each affinity engine as one or more data blocks according to a data path schedule. Also, new configurations may be generated from one or more input configurations, computation of a plurality of affinity values for a plurality of configurations, and subsequent selection of processed configurations for further analysis.

摘要翻译： 提供了用于有效计算分子构型的两个或多个分子子集的亲和力函数的值的方法和装置。 分子亚类中的任一个或两个可以选自分子文库。 亲和引擎可以计算亲和力值，并且可以同步，以最大限度地利用亲和力引擎中可用的处理能力。 数据路径分配器可以根据数据路径调度将分子描述符数据分配给每个亲和力引擎作为一个或多个数据块。 此外，可以从一个或多个输入配置，多个配置的多个亲和度值的计算以及随后选择用于进一步分析的经处理的配置来生成新的配置。

公开(公告)号：US08036867B2

公开(公告)日：2011-10-11

申请号：US10967085

申请日：2004-10-14

申请人： Adityo Prakash ,  David Kita ,  Eniko Fodor

发明人： Adityo Prakash ,  David Kita ,  Eniko Fodor

IPC分类号： G06G7/48 ,  G06G7/58 ,  G01N33/48 ,  G01N31/00

CPC分类号： G06F19/28 ,  G06F19/16

摘要： Computing units are determined for performing molecular docking calculations in parallel with the number of computing units and the width of the data paths allocated by relative complexity of operations. Data can be expected to arrive at downstream computing units as it is needed, leading to higher utilization of computing units. Computing units are hardware components that are specific to a calculation performed. For molecular docking calculations, functions of molecular subsets or of combinations of molecular subsets are calculated. Determinations include fit between molecular subsets, affinity or energy of “fit” between molecular subsets, etc. Affinity might include inter-atomic energy, bond energy, energy of atoms immersed in a field, etc. The calculations could be used to simulate and/or estimate likelihoods of molecular interactions.

摘要翻译： 确定计算单元与计算单元的数量和通过操作的相对复杂度分配的数据路径的宽度并行执行分子对接计算。 数据可以预期在需要时到达下游计算单元，导致计算单元的更高利用率。 计算单位是特定于执行计算的硬件组件。 对于分子对接计算，计算分子子集的功能或分子子集的组合。 测定包括分子亚群之间的拟合，分子子集之间的“拟合”的亲和力等等。亲和性可以包括原子间能量，键能，浸在场中的原子的能量等。计算可以用于模拟和/ 或估计分子相互作用的可能性。

公开(公告)号：US07082166B2

公开(公告)日：2006-07-25

申请号：US10105055

申请日：2002-03-20

申请人： Adityo Prakash ,  Eniko Fodor

发明人： Adityo Prakash ,  Eniko Fodor

IPC分类号： H04N7/12

CPC分类号： G06T9/001 ,  H04N19/107 ,  H04N19/12 ,  H04N19/17 ,  H04N19/196 ,  H04N19/20 ,  H04N19/23 ,  H04N19/46 ,  H04N19/507 ,  H04N19/51 ,  H04N19/517 ,  H04N19/52 ,  H04N19/59 ,  H04N19/61 ,  H04N19/80

摘要： A decoder decodes compressed video data wherein nonkey frames are decoded with reference to other frames from the video data that are reference frames. The decoder generates at least a part of a segmentation of the reference frames for use in decoding nonkey frames. A nonkey frame is regenerated using kinetic information about the current frame and the reference frame segmentation. Kinetic information might include segment translation information. Where the segmentation used in encoding the compressed video data can vary among a plurality of segmentation schemes, the decoder determines which segmentation scheme is used from selection indications in the compressed video data or from previously decoded video data. The decoder might also use partial segmentation information, segmentation hints, partial segment canonical information and/or canonical hints in its segmentation process. The decoder might also process segment-related metadata extracted the compressed video data.

公开(公告)号：US07082162B2

公开(公告)日：2006-07-25

申请号：US10338086

申请日：2003-01-06

申请人： Adityo Prakash ,  Eniko Fodor

发明人： Adityo Prakash ,  Eniko Fodor

IPC分类号： H04N7/12

CPC分类号： G06T9/001 ,  H04N19/107 ,  H04N19/12 ,  H04N19/162 ,  H04N19/17 ,  H04N19/196 ,  H04N19/20 ,  H04N19/23 ,  H04N19/46 ,  H04N19/463 ,  H04N19/507 ,  H04N19/51 ,  H04N19/517 ,  H04N19/52 ,  H04N19/543 ,  H04N19/553 ,  H04N19/59 ,  H04N19/61 ,  H04N19/80

摘要： An encoder segments frames of video data and associates metadata with segments. The metadata elements can be associated with the segments that include areas of the frame associated with the metadata elements. A motion matcher can match segments of a reference frame to pixels of a current nonkey frame being encoded when a metadata associator associates elements of metadata with segments of the segmentation of the reference frame and associates a matched segment's metadata elements with matched areas of the current frame. The metadata elements might represent actions to be taken when a user of the video data indicates a selection of an area of an image that has that metadata element associated therewith. The metadata associations can be included in the encoded video data or deduced by a decoder. The metadata associations can be independent of segment indices or other segment changes.

公开(公告)号：US20060153304A1

公开(公告)日：2006-07-13

申请号：US11369336

申请日：2006-03-07

申请人： Adityo Prakash ,  Eniko Fodor

发明人： Adityo Prakash ,  Eniko Fodor

IPC分类号： H04N11/02 ,  H04N11/04 ,  H04N5/14 ,  H04N9/64 ,  H04N7/12 ,  H04B1/66

CPC分类号： G06T9/001 ,  H04N19/107 ,  H04N19/12 ,  H04N19/156 ,  H04N19/17 ,  H04N19/172 ,  H04N19/196 ,  H04N19/20 ,  H04N19/23 ,  H04N19/46 ,  H04N19/507 ,  H04N19/51 ,  H04N19/517 ,  H04N19/52 ,  H04N19/527 ,  H04N19/59 ,  H04N19/61 ,  H04N19/70 ,  H04N19/80

摘要： An encoding system includes an encoder that encodes uncompressed video data to form compressed video data and a decoder that decodes the compressed video data to form at least an approximation of the uncompressed video data. The video data comprises a sequence of a plurality of image frames comprising key frames and nonkey frames. In encoding a nonkey frame, reference is made to segments of a reference frame. Kinetic information, such as motion vectors, relates portions of the nonkey frame to the segments of it reference frame. The information content of the nonkey frame that is not conveyed by the segmentation, the reference frame content and the kinetic information can be encoded as residue data. Each segment's residue data, or the nonkey frame's residue data, can be encoded as coefficients of basis functions known to both the encoder and the decoder.

公开(公告)号：US07050441B2

公开(公告)日：2006-05-23

申请号：US09998014

申请日：2001-11-29

申请人： Adityo Prakash

发明人： Adityo Prakash

IPC分类号： H04L12/28 ,  H04L12/56

CPC分类号： H04L47/2416 ,  H04L12/5692 ,  H04L45/00 ,  H04L45/24 ,  H04L47/10 ,  H04L47/11 ,  H04L47/122 ,  H04L47/2408 ,  H04L47/29

摘要： The utilization of an non-QOS guaranteed network is envisioned within a communication network to increase bandwidth when necessary. In this system two locations are connected by two separate communications networks one QOS guaranteed QOS guaranteed network while the other non-QOS guaranteed packet based network without QOS guarantee. A smart buffering system integrates the two networks.

公开(公告)号：US20050228592A1

公开(公告)日：2005-10-13

申请号：US10966041

申请日：2004-10-14

申请人： Sachin Ahuja ,  David Kita ,  Eniko Fodor ,  Adityo Prakash

发明人： Sachin Ahuja ,  David Kita ,  Eniko Fodor ,  Adityo Prakash

IPC分类号： C12Q1/68 ,  G01N20060101 ,  G01N33/48 ,  G01N33/50 ,  G01N33/68 ,  G06F7/00 ,  G06F19/00 ,  G06F19/16 ,  G06F19/18 ,  G06G7/48

CPC分类号： G06F19/701 ,  C40B30/02 ,  G01N33/6803 ,  G06F19/16 ,  G06F19/18 ,  G06F19/24 ,  G06F19/26 ,  G06F19/28 ,  G06F19/706 ,  G06F19/707

摘要： A method for partitioning a molecular subset is described. The partitioning method takes into account molecular structure and its manner of storage and transmission, transformations to be applied to the molecular subset and their implementation, and constraints imposed by the implementation of the partitioning method. Using this method, a molecular subset can be stored, transmitted, and processed more efficiently. The resulting efficiency makes it possible to design and run applications which require complex molecular processing, such as rational drug discovery, virtual library design, etc.

摘要翻译： 描述了用于分割分子子集的方法。 分割方法考虑了分子结构及其存储和传输方式，应用于分子子集的变换及其实现，以及实施分区方法所施加的约束。 使用这种方法，可以更有效地存储，传输和处理分子子集。 所产生的效率使得可以设计和运行需要复杂的分子处理的应用，例如合理的药物发现，虚拟图书馆设计等。

公开(公告)号：US06876771B2

公开(公告)日：2005-04-05

申请号：US10028998

申请日：2001-12-20

申请人： Adityo Prakash ,  Edward Ratner

发明人： Adityo Prakash ,  Edward Ratner

IPC分类号： G06T9/00 ,  H04N7/26 ,  H04N7/30 ,  H04N7/34 ,  G06K9/36

CPC分类号： G06T9/007 ,  H04N19/105 ,  H04N19/146 ,  H04N19/176 ,  H04N19/593 ,  H04N19/60

摘要： In accordance with an embodiment, a method of encoding includes generating for each transform point a double difference coefficient (comprising the difference between a modeled difference coefficient and a raw difference coefficient) and encoding as an adaptive difference coefficient for each transform point either the double difference coefficient or the raw difference coefficient. Whether the double difference coefficient or the raw difference coefficient is selected to be the adaptive difference coefficient depends on which one provides more efficient coding. A method of decoding includes receiving the adaptive difference coefficients from the encoder, applying the same modeling and transform as the encoder to generate the modeled difference coefficients, generating corrective difference coefficients (from the adaptive difference coefficients and the modeled coefficients), and inverse transformation using the corrective difference coefficients. A system may include an encoder implementing the method of encoding and a decoder implementing the method of decoding.

摘要翻译： 根据实施例，一种编码方法包括：为每个变换点生成双差分系数（包括建模差分系数和原始差分系数之间的差异），并且将每个变换点的自适应差分系数进行编码， 系数或原始差分系数。 双差分系数或原始差分系数是否选择为自适应差分系数取决于哪一个提供更有效的编码。 解码方法包括从编码器接收自适应差分系数，应用与编码器相同的建模和变换以产生建模的差分系数，产生校正差分系数（来自自适应差分系数和建模系数），以及使用 校正差分系数。 系统可以包括实现编码方法的编码器和实现解码方法的解码器。

公开(公告)号：US20190341145A1

公开(公告)日：2019-11-07

申请号：US16516357

申请日：2019-07-19

申请人： Adityo Prakash ,  Eniko Fodor

发明人： Adityo Prakash ,  Eniko Fodor

IPC分类号： G16H40/40 ,  G16H50/20 ,  G06Q30/06

摘要： The present invention includes various embodiments of a BSA system that facilitates the collection of relevant health-related data on a continuous basis, integrates such data with pertinent personal and aggregate information, enables users to purchase (directly and indirectly) health-related goods and services, and provides credit, discounts and other economic benefits in connection with such purchases that are determined dynamically based upon the nature and extent of users' interaction with the system. The BSA system facilitates a dynamic feedback process by continually monitoring user interaction and medical and financial behavior, which results in dynamic adjustments to their credit levels and offers of discounts and other promotions, which in turn incentivizes users to continue participating in the process (thereby modifying their system interactions and behavior, and thus perpetuating this feedback loop). As a result, users are incentivized to actively participate in the process and thereby enhance their wellness while reducing healthcare costs.

公开(公告)号：US10360343B2

公开(公告)日：2019-07-23

申请号：US14857034

申请日：2015-09-17

申请人： Adityo Prakash ,  Eniko Fodor

发明人： Adityo Prakash ,  Eniko Fodor

IPC分类号： G06Q50/00 ,  G06F19/00 ,  G06Q30/06 ,  G16H50/20 ,  G06Q10/00

摘要： The present invention includes various embodiments of a BSA system that facilitates the collection of relevant health-related data on a continuous basis, integrates such data with pertinent personal and aggregate information, enables users to purchase (directly and indirectly) health-related goods and services, and provides credit, discounts and other economic benefits in connection with such purchases that are determined dynamically based upon the nature and extent of users' interaction with the system. The BSA system facilitates a dynamic feedback process by continually monitoring user interaction and medical and financial behavior, which results in dynamic adjustments to their credit levels and offers of discounts and other promotions, which in turn incentivizes users to continue participating in the process (thereby modifying their system interactions and behavior, and thus perpetuating this feedback loop). As a result, users are incentivized to actively participate in the process and thereby enhance their wellness while reducing healthcare costs.