| 摘要 |
Network system apparatus and method of use provides for neurosynaptic network connectivity and collaborative knowledge exchange with visual neural networking and packetized augmented cognition. Value chain knowledge exchange includes knowledge acquisition and mapping, creation and destruction, integration and sharing, replication and protection, as well as outcomes performance evaluation, strategy formulation, implementation and innovation. Multimodal cognitive communications includes multisensory [sight-sound-touch] digital data exchange with vision, audition and sensation [semiotics, semantics, somesthetics.] The invention enables pluribus network encoding with multichannel multiplexed signals, sensors, devices, packets, waveforms and streams, including space shifting, time shifting and format shifting media synchronization. The invention enables networked teams to recursively annotate and tag, encapsulate and share multichannel multiplexed imagery data streams, including multisensory data stream visualization and bi-directional knowledge exchange, with streaming imagery data from heterogeneous spatial and temporal sources, locations, modalities and scales. The invention acquires both live stream and archived medical imagery data from network-connected medical devices, cameras, signals and sensors. The network system apparatus also acquires phenotypic and genomic data from biometric maps, movies, data stream visualizations, hapmaps and heat maps. The network system apparatus also acquires packetized clinical informatics from imagery data repositories, from clinical workstations and mobile medical devices, as well as from wearable computing devices, signals and sensors. The invention enables networked teams to interactively communicate, concurrently collaborate and bi-directionally exchange multichannel multiplexed imagery data streams, singly or together, in real time or asynchronously, generally by annotating and tagging imagery information objects. The invention encapsulates and saves collaborated imagery data streams, together with collaborated clinical annotations and personal health identifying [PHI] privacy protected metadata, in standard known file formats as medical dicom vismemes—encapsulated packets, waveforms and streams. Medical dicom vismemes preserve packetized imagery information objects, clinical annotations and metadata tags in native file format structures, including PDF, MPEG, JPEG, XML, XMPP, QR, SVG and DAE. The invention enables live stream multicasting of N-way multi-party collaborations, including multisensory data stream visualization and bi-directional knowledge exchange, with multichannel multiplexed imagery data streams, and concurrent transmission of secure, encrypted medical dicom vismemes across collaborative file sharing networks for interoperable health information exchange. |
| 主权项 |
1. A network systems apparatus allowing collaborator clients, to capture, retrieve and concurrently view one or more sources of heterogeneous streaming imagery data, medical and non-medical streaming imagery data, and combinations thereof including images, video, modality imagery, waveforms, audio and haptic files, genomic maps, interactive biometric data visualizations, structured reports, and clinical documents, both live and archived, for synchronous or asynchronous communication, collaboration and consultation with one or more collaborator clients, each collaborator client annotating over the heterogeneous streaming imagery data, comprising;
a tele-visual imagery informatics management system including,
at least one or more tele-visual imagery informatics management system clini-docks, wherein each is a device adapted for independent acquisition and transmission of signals from other sources of streaming imagery data at native, enhanced or reduced resolutions and native enhanced or reduced frame rates, used for the acquisition and transmission of, live or archived streaming imagery data, including images, video, modality imagery, waveforms, audio and haptic files, genomic maps, interactive biometric data visualizations, structured reports, and clinical documents, analog or digital video signals in standard or non-standard resolutions, medical or non-medical imagery, in compressed or uncompressed imagery formats;at least one or more tele-visual imagery informatics management system clini-pod servers a computer, enabling at least one or more collaborants to concurrently view, communicate, collaborate, and consult among collaborants using at least one or more sources of streaming imagery data acquired and transmitted by tele-visual imagery informatics management system clini-docks, including live streaming imagery data, archived streaming imagery data, appended streaming imagery metadata, collaborant annotations, and archived collaborated imagery files during a synchronous or asynchronous collaboration session; establishing and maintaining channel communications for each and all of the sources of streaming imagery data for at least one or more collaborants during a collaboration session, enabling at least one or more collaborants in at least one or more locations, to concurrently view, communicate, collaborate, and consult among collaborants using at least one or more sources of live streaming imagery data, archived streaming imagery data, appended streaming imagery metadata, collaborant annotations, and archived collaborated imagery files from each collaborant during a collaboration session, managing and controlling at least one or more associated databases, and privileges for authorization, authentication, identity management, security, access, publication and distribution for viewing, communicating, collaborating and consulting among collaborants managing and controlling privileges for at least one or more collaborants to encapsulate and save, store, retrieve and distribute live streaming imagery data, archived streaming imagery data, appended streaming imagery metadata, collaborant annotations, and archived collaborated imagery files for each collaborant during collaboration sessions; enabling both synchronous and asynchronous bidirectional communication with combinations of one or more local area networks, one or more wide area networks, including internet, and one or more streaming imagery data repositories during one or more collaboration sessions enabling identification, tracking and monitoring of collaborants by assignment of a unique color for annotations of streaming imagery data, archived collaborated imagery files and collaborant annotations, including telestrations, drawings, illustrations, alpha-numeric text notations, video annotations, voice annotations, haptic annotations and document annotations; and
at least one or more tele-visual imagery informatics management system clini-ports allowing at least one or more collaborants, each,capturing live streaming imagery data, capturing associated live streaming imagery metadata, retrieving archived streaming imagery data, retrieving archived associated imagery metadata, and transporting live streaming imagery data, transporting associated live streaming imagery metadata, and transporting live streaming imagery data, associated live streaming metadata, archived streaming imagery data, associated archived streaming metadata into collaboration sessions, concurrently view, communicate, collaborate, and consult among collaborants using at least one or more sources of streaming imagery data, annotating streaming imagery data collaborant annotations, including telestrations, drawings, illustrations, alpha-numeric text notations, video annotations, voice annotations, haptic annotations and document annotations, and encapsulating streaming imagery data and associated streaming imagery metadata together with collaborant annotations in a single file format structure, and saving said streaming imagery data and said associated streaming imagery metadata together with said collaborant annotations in at least one or more collaborated imagery files during collaboration sessions, including asynchronous or synchronous collaborations with at least one or more collaborants, communicate, collaborate and consult with one or more sources of streaming imagery data shared among one or more participant collaborants with a multi-channel stream viewer that enables capture, retrieval and concurrent viewing of both live and archived medical imagery streams together with associated metadata independently add sources of streaming imagery data, adjust, enhance or reduce resolutions or frame rates of streaming imagery data with a multi-channel communications control interface, and independently view those additional channels of streaming imagery data and independently select which of those channels to bring into a collaboration session convey instructions with two way communication among collaborants, including source channel selection for imagery data streams with telestrations, drawings, illustrations, alpha-numeric text notations, image annotations, waveform annotations, voice annotations, video annotations, haptic annotations and document annotations and not reliant upon any external communications network. |
