초록 ▼

A method and apparatus for reliable wireless voice, data and location communication for deployment in underground, industrial and other hazardous environments using a wireless mesh network. The network includes protocol for dispatch operation, emergency operation, remote supervision, remote status,

A method and apparatus for reliable wireless voice, data and location communication for deployment in underground, industrial and other hazardous environments using a wireless mesh network. The network includes protocol for dispatch operation, emergency operation, remote supervision, remote status, asset control, machine state of health and operational management. The architecture is based on localized clusters of autonomous nodes capable of ad hoc interconnection with nearby nodes and connection to gateway nodes. The resulting network is an ad hoc mesh topology comprised of fixed mesh nodes with approximately 50% coverage overlap between nodes. This provides a reliable communication network for mobile nodes carried by personnel and sensor nodes that are fixed or mobile that supports voice, data and tracking/situation awareness. Each cluster of nodes transfers digital voice and data to gateway nodes either directly or through multi-hop transactions.

대표청구항 ▼

1. A system for the creation of a reliable wireless ad hoc mesh network architecture and protocol to support normal and emergency operation of voice, data and location communication for underground, industrial and other hazardous environments using a single wideband platform, the system comprising:

1. A system for the creation of a reliable wireless ad hoc mesh network architecture and protocol to support normal and emergency operation of voice, data and location communication for underground, industrial and other hazardous environments using a single wideband platform, the system comprising: a network architecture based on localized clusters of intrinsically safe autonomous nodes capable of ad hoc interconnection with nearby nodes and connection to gateway nodes resulting in an ad hoc wireless mesh network (WMN) topology where each gateway node, fixed mesh node (FMN) and mobile node contains an ad hoc mesh network protocol for automatic formation of a network topology, power control, and maintenance of reliable link connections within a network;a reliable and secure radio frequency (RF) physical layer with an ad-hoc networking data link layer that is self-configuring, energy efficient, and scaleable to variable size networks capable of providing reliable communications for a wireless voice and data network;wherein the ad hoc wireless mesh network (WMN) topology comprises fixed mesh nodes with approximately 50% coverage overlap between nodes to provide a reliable communication network where each cluster of nodes transfers digital voice and data either directly or through multi-hop transactions for mobile nodes carried by personnel and intrinsically safe sensor mesh nodes (SMNs) that are fixed or mobile; location of stationary nodes are optimized based on signal strength of radio frequency (RF) links and a traffic profile in a manner that if a nearest neighbor node becomes incapacitated, there is sufficient transmit power and receive sensitivity to connect with a next nearest neighbor; and wherein there are numerous paths in the wireless mesh network, including multiple paths to ultimately connect to decision-making authorities to ensure critical communications are achieved;wherein the ad hoc wireless mesh network (WMN) includes protocol for dispatch operation, emergency operation, remote supervision, tracking of personnel, remote status, asset control, machine state of health and operational management is capable of being managed by way of a Gateway node connected to an operations center by way of a wide area network; andwherein tracking of personnel carrying mobile mesh radios (MMR) and mobile nodes is determined by way of triangulation methods based on signal strength and/or time of arrival measurements relative to nearest active fixed mesh nodes in order for surface personnel to determine location of any person underground. 2. The system of claim 1 wherein said operations center includes supervision, status and configuration of the Wireless Mesh Network using the ad hoc mesh network protocol with quality of service to enable voice and text messaging communications with personnel carrying said mobile mesh radios (MMR), relative location of mobile nodes, operational status of underground equipment, real-time sensor measurement data to determine condition of the underground hazardous environment and remote management of the underground equipment. 3. The system of claim 1 wherein reliable operation is provided between the above-ground wide area network and an underground network by locating at least one of said Gateway nodes above ground or sufficiently away from the hazardous area to provide an interface to the underground communication system using the ad hoc mesh network protocol and an above-ground wide area network (WAN) interface using a standard Ethernet interface with Internet Protocol (IP): wherein the Gateway node includes all functions of an FMN and the wide area network interface;wherein the Gateway node provides transparent communications across different physical layers;wherein each Gateway node processes Wireless Mesh Network voice and data packets and transfers information between the WMN and wide area network using quality of service;wherein the Gateway operation allows underground personnel with MMR's to continue communication with each other and with Sensor Mesh Nodes (SMN's) independent of the above ground connection;wherein the locations of the Gateway nodes are optimized based on signal strength of the radio frequency (RF) links and the traffic profile;wherein the Gateway node supports one or more instantiations of Wireless Mesh Network waveform and one or more instantiations of WAN waveforms simultaneously;wherein there is no data loss when the Gateway node automatically switches between the primary and secondary waveforms. 4. The system of claim 1 wherein WMN node configuration parameters and software can be dynamically re-assigned and reconfigured by way of one of said gateway nodes or an access point to the wide area network: wherein reconfiguration of nodes can take one or more forms selected from changing a channel waveform; changing the channel operating parameters; or turning a channel on/off without affecting the operation of other waveforms, over-the-air reprogramming and/or rekeying; andwherein one or more of changing the location of fixed nodes, gateway nodes, node RF link connections, node waveform, or node RF spectrum is capable of occurring during reconfiguration; andwherein power levels are capable of being modified to minimize interference with other nodes. 5. The system of claim 1 wherein each of said at least one intrinsically safe sensor mesh nodes includes the wireless ad hoc mesh network protocol and is capable of collecting data to provide real-time conditions in the underground environment and of equipment located therein from one or more intrinsically safe sensors selected from the group consisting of temperature, pressure, gas, humidity, wind speed, voltage, current, lighting, chemical, biological, radiological, explosive, acoustic, magnetic, seismic, biometric, personnel state, personnel health monitoring, machine state, machine health monitoring and imaging and is capable of transmitting that data to the at least one underground wireless mesh network. 6. The system of claim 1 wherein each of said at least one intrinsically safe sensor mesh nodes is capable of communicating by way of the ad hoc mesh network protocol with any one or more of said fixed mesh nodes, said at least one gateway node or said at least one mobile mesh radio to provide real-time data, wherein SMN's are placed where needed to monitor conditions over a wide enough area to provide capability to rapidly detect, locate, characterize, report, track, and respond to events, especially a localized explosion, fire, flood, or collapse. 7. The system of claim 1 wherein each of said at least one mobile mesh radios is capable of communicating by way of the ad hoc mesh network protocol with any one or more of said fixed mesh nodes, said at least one gateway node and another of said at least one mobile mesh radios so as to provide two-way radio emergency voice and text communications to personnel located underground; Wherein MMR's are capable of communicating with other MMR's and SMN's in talk-around mode to allow local communication when out of range of an FMN;wherein an MMR can act as a relay link between another MMR and an FMN, or between an SMN and an FMN to extend communication range.