Classifications

• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
  • H04L67/00—Network arrangements or protocols for supporting network services or applications
  • H04L67/01—Protocols
  • H04L67/12—Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
  • H04L67/125—Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks involving control of end-device applications over a network
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04W—WIRELESS COMMUNICATION NETWORKS
  • H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
  • H04L69/00—Network arrangements, protocols or services independent of the application payload and not provided for in the other groups of this subclass
  • H04L69/14—Multichannel or multilink protocols
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04W—WIRELESS COMMUNICATION NETWORKS
  • H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
  • H04W88/02—Terminal devices
  • H04W88/06—Terminal devices adapted for operation in multiple networks or having at least two operational modes, e.g. multi-mode terminals

Definitions

• CDMA Code Division Multiple Access
• EVDO EVDO Rev A
• WCDMA Wideband CDMA
• GSM Global System for Mobile Communications
• HSDPA High-Speed Downlink Packet Access
• LTE Long-Term Evolution
• wireless devices have been deployed that will allow for the acquisition of different wireless networks such as, for example, chips to allow laptop computers and other devices to acquire various wireless data networks including, for example, CDMA and HSDPA networks.
• software has been deployed on handsets and other terminal devices that allow for the acquisition of signals and networks according to a pre-defined hierarchy such as, for example, a Preferred Roamer List (PRL).
• PRL Preferred Roamer List
• FIGURE 1 is an overview of an Integrated Control Device with Segregated Wireless Command Control and Wireless Transport.
• FIGURE 2 is an overview of an Integrated Control Device with Segregated Wireless Command Control and Wireless Transport integrated with a separate control channel network and with various wireless transport technologies and service providers.
• FIGURE 3 is a listing of command and control channel system commands, information and services.
• FIGURE 4 is an overview of a Command and Control Network Device Linked to an End-user Device with a Multi-Network Acquisition Capability (the "Linked Control Device").
• FIGURE 5 is an overview of a Linked Control Device integrated with a separate control channel network and with various wireless transport technologies and service providers and wireless networks.
• FIGURE 6 is a listing of additional command and control channel system commands, information and services that can be addressed or implemented through an Integrated Control Device or a Linked Control Device.
• FIGURE 7 is a perspective view of a truck comprising the improved systems.
• FIGURES 8 A and 8B illustrate various environments and architectures used in exemplary embodiments;
• FIGURES 9A-9B illustrate example software components located on the exemplary device and/or servers of FIGURE 8B.
• FIGURE 10 illustrates an exemplary software and hardware architecture used in an exemplary embodiment.
• Embodiments provide a terminal device that can acquire multiple broadband carrier telecommunication networks (the "Carrier Network”) and can also acquire a separate command, via a control and instruction channel or link, using a separate chip and wireless service radio, with a separate or common antenna able to acquire and receive communications from a network independent from the networks of existing broadband wireless carriers (the "Control Channel”) and which terminal device also provides for implementation of commands from the Control Channel (the "Integrated Control Device”).
• the Carrier Network multiple broadband carrier telecommunication networks
• Control Channel the Control Channel
• Embodiments of the Integrated Control Device allow for commands and instructions to be issued over a Command Channel to a group of devices and/or end-user terminals to determine which technology will be deployed for the transport of voice and/or data and/or short message service (SMS), and which Carrier Network will be acquired by a defined group of end-user terminal devices and in what order. Additional embodiments provide for the timing of receipt and the timing of action upon commands and/or actions initiated and/or delivered over the Control Channel and the priority of the timing and actions taken and/or commanded. [0015] Accordingly, this application relates to an Integrated Control Device for a segregated, and independent, wireless command and control over the Control Channel of wireless service selection, wireless transport and wireless communications routing.
• Embodiments provide for control of the initiation, monitoring, and control of the routing and/or path for the transmission, transport, and delivery of data and/or voice services and/or SMS over a selected Carrier Network.
• Embodiments provide for, among other things, Carrier Network independent control and delivery of selected services, wireless voice and/or data and/or SMS service technology and transport selection and/or least cost routing over wireless networks and a selected Carrier Network.
• Examples of an Integrated Control Device embodiment would use, for example, but not limited to, a multiple technology service chip-set, or the serial linking of separate network components or chip-sets on a common platform, along with the use of an external network and command receipt antenna and chip-set for the Control Channel, such as, for example, a paging network and paging transceiver to receive the paging or independent Control Channel wireless command, or a satellite link antenna and chip, to receive the independent Control Channel wireless command.
• Embodiments then direct the multiple network chip or the multiple network configured end-user terminal with the Integrated Control Device embodiment to, in turn, acquire a third party network or wireless platform or Carrier Network in the priority and/or order directed, and with the services and capabilities then directed.
• This Control Channel can also be used for the independent and direct delivery of services directly to end-user devices separate from a Carrier Network and/or integrated with a Carrier Network as determined by the controlling party or entity of the Control Channel.
• An additional highly desirable capability of such an Integrated Control Device embodiment is the receipt of confirmation that the commands, instructions and/or controls delivered over the Control Channel have been received and acted upon.
• an enterprise, and/or an intermediary representing one or more enterprises or group of end-users will acquire for a group of users a wireless communication terminal containing an Integrated Control Device embodiment.
• Embodiments will provide for the ability to choose for the wireless communication terminal a Carrier Network for the delivery of voice and/or data services.
• the Integrated Control Device will also have the ability to receive through the Control Channel a command and/or instruction that will then determine for the Integrated Control Device the Carrier Network to be used by the Integrated Control Device and/or the wireless communications terminal.
• This Integrated Control Device and wireless communications terminal will also have the ability to communicate to the enterprise and/or intermediary that the commands, controls and/or instructions delivered over the Command Channel have been successfully received, acted upon and/or implemented.
• the enterprise and/or intermediary Upon deployment of the Integrated Control Device incorporated into or integrated with the end-user wireless services terminal or equipment and the system and platform supporting the Control Channel, the enterprise and/or intermediary will choose the technology and/or Carrier Network for users or groups of users based upon service and technology availability, geographic area, capacity, capacity by time of day and/or cost and/or other characteristics or elements of the Carrier Network. The choice is then implemented by command to the Integrated Control Device, over the Control Channel. Embodiments then monitor reports of the receipt, action upon and/or subsequent implementation of the controls, commands and instructions delivered over the Control Channel. In some embodiments, the process will be repeated at periodic intervals to optimize the use of wireless transport and its cost by the enterprise or by the intermediary.
• an independent telecommunications Control Channel, or link one or more, or a combination of, all or part of the following is provided:
• a direct wireless channel, wire line channel, or link to an end-user telecommunications device and/or terminal b.
• Another set of capabilities and characteristics of the Integrated Control Device embodiments is the ability to directly receive and act upon independent commands and telecommunications over wireless channel, wire line channel, link and/or Control Channel.
• An embodiment may be comprised of one or more, or all of, the following:
• a receiving antenna and chip set that allows for receipt of independent commands and/or instructions
• b. A microprocessor with the capability of translating received commands and/or instructions including but not limited to commands, controls or instructions delivered over the Control Channel for additional action,
• a send and receive antenna and chip set able to select and communicate with the Control Channel and separately communicate with the Carrier Network, apart from the Control Channel,
• a microcontroller interface between the Integrated Control Device and the Carrier Network acquisition chip-set in a wireless end-user terminal and/or equipment f.
• the software program between the Integrated Control Device embodiment and the Carrier Network access chip-set and/or antenna in a wireless end-user device g.
• the Integrated Control Device embodiment for providing independent command, control and instructions over end-user wireless terminals and/or devices including but not limited to command, control and instructions over the Control Channel is comprised of one or more, or all of, the following: a.
• the method and system for reporting of command and service implementation changes over the Control Channel, or, through the signaling channels across and from the Carrier Network.
• the Integrated Control Device embodiment provides for separate delivery of commands to a wireless device through a Control Channel.
• Embodiments provide for one or more or all of the following capabilities:
• APIs application programming interfaces
• a device and system and/or Control Channel for the independent control and delivery of commands and/or instructions, and/or wireless services determination, to wireless end-user devices, terminals and/or equipment.
• Embodiments provide for choosing the technology, network and/or service provider and/or Carrier Network for the transport of wireless voice and/or data services.
• Embodiments utilize an independent link or pathway to control the choice of the technology and/or transport network over the Control Channel or otherwise, and provide for an independent verification and/or confirmation of the completion of the network and/or path chosen.
• FIGURE 1 is an overview of an embodiment of an Integrated Control Device with Segregated Wireless Command Control and Wireless Transport.
• FIGURE 1 provides detail with respect to an integrated control device embodiment that can receive a command on a receiving chip set 11 over a separate Control Channel not controlled by a Carrier Network. Once the command is received, the command is translated through a microcontroller and/or software interface 12 to command the network acquisition chip set 13 to acquire the Carrier Network for wireless voice and data transport.
• the network acquisition component 13 of the Integrated Control Network and Transport Network Command/Control Device may be comprised of an integrated chip set or it may be comprised of independent chip and transmission components linked to the microcontroller and/or software interface 12.
• the Integrated Control Network and Transport Network Command/Control Device embodiment is deployed as an integrated unit 14, thus allowing for a uniform, cost-effective and broad deployment of an Integrated Control Device.
• the Integrated Control Network and Transport Network Command/Control Device is then imbedded or tied into various end-user components and equipment 15 allowing those devices to be re-directed by a command independent of deployed wireless networks or over the Control Channel to provide for voice and data delivery simultaneously over one or more independently selected wireless technology and/or service transport networks and/or Carrier Networks.
• FIGURE 2 is an overview of an Integrated Control Device with Segregated Wireless Command Control and Wireless Transport embodiment 14 integrated with a separate control channel network, and integrated with various wireless transport technologies and/or service providers.
• FIGURE 2 shows how the Integrated Control Network and Transport Command/Control Device embodiment 14 is then communicatively integrated into the Carrier Network 18 and a command/control system 17 independent of the Carrier Network 18. It also shows the ability of an end-user devices 15 through multiple antennas 16 or a single multi-network capable antenna 16 to acquire both the Control Channel as well as the wireless channel for the Carrier Network 23.
• the separate control channel network and/or the wide-area wireless transport networks may include various high-speed high-bandwidth wireless transport platforms using technologies such as CDMA 2000, CDMA-EVDO, CDMA-EVDO Rev A, WCDMA, HSDPA, WiMax, WiFi, LTE and other and additional next generation high-speed and high-bandwidth wireless data networks 18.
• FIGURE 2 shows a server for control and signaling control of the Control Channel independent of the wireless transport carriers 18 and a data-base for end-user information and customer usage and data repository 20 independent of the Carrier Network.
• the wireless control channel network is shown as a paging network, a satellite network, or other independent wireless network 17 (i.e., the command/control system 17), or other network that provides the ability to deliver commands over the Control Channel or otherwise to the command receipt chip 11 independent of the wide-area wireless transport carriers 18 (i.e., the exemplary Carrier Network 18). Also shown are alternative mechanisms for receiving network change, and/or command and control implementation validation, either through a two-way wireless command and control channel 22 or through a signaling channel link over IS-41, SS7 MAP links, ENUM telephone number mapping or directly through an Internet Protocol link 21.
• FIGURE 3 is a listing of command and control channel system commands, information and/or services that can be delivered over an independent wireless control channel and/or Control Channel to an Integrated Control Network and Transport Network Command and Control Device 14 that is integrated with both a command and control wireless network and various alternative wireless transport networks and/or Carrier Networks 18.
• FIGURE 3 shows various commands that can be delivered over an independent command and control wireless channel 24.
• commands include a choice of transport technology, network and/or service provider 25, a choice of default or ad-hoc wireless internet browser 26, a command to provide location of the end-user device and confirmation of service platform acquisition to provide for, among other things, delivery of new independently controlled Location Based Services (LBS) 27, a command for the delivery of advertising directly to the end-user device through the command and control channel independent of the wide-area wireless network transport provider 28, a command for data download and/or upload, including but not limited to, choice of network or Carrier Network and/or time of day 29.
• LBS Location Based Services
• the delivery of text messaging independent of the Carrier Network 30.
• Such other commands as would be within the scope and capability of the command and control network and/or Control Channel, along with the ability to open this control platform and/or Control Channel to third party software providers and to end-users 32.
• Such additional services may include, but not be limited to, alerts delivered over the Control Channel and/or the Carrier Network.
• Embodiments provide a terminal device (the “Terminal Device") that can acquire multiple broadband carrier telecommunication networks (the “Carrier Network”) and can also be instructed by a Linked Control Device, via a control and instruction channel or link, using a separate chip and wireless service radio on the Linked Control Device able to acquire and receive communications from a network independent from the networks of existing broadband wireless carriers (the "Control Channel”) and which Linked Control Device also provides for implementation of commands from the Control Channel when physically linked or connected to the Terminal Device.
• the Terminal Device can acquire multiple broadband carrier telecommunication networks (the “Carrier Network”) and can also be instructed by a Linked Control Device, via a control and instruction channel or link, using a separate chip and wireless service radio on the Linked Control Device able to acquire and receive communications from a network independent from the networks of existing broadband wireless carriers (the "Control Channel”) and which Linked Control Device also provides for implementation of commands from the Control Channel when physically linked or connected to the Terminal Device.
• Embodiments of the Linked Control Device allow for commands and instructions to be issued over the Control Channel to the Linked Control Device to then provide instructions and commands to a Terminal Device, a group of devices, and/or end-user terminals, to determine which technology will be deployed for the transport of voice and/or data, and which Carrier Network acquired by a defined group of end-user Terminal Devices, and in what order.
• this application relates to a Linked Control Device for a segregated, and independent, wireless command and control over the Control Channel of wireless service selection, wireless transport and wireless communications routing.
• Embodiments provide for control of the initiation, monitoring, and control of the routing and/or path for the transmission, transport, and delivery of data and/or voice services over a selected Carrier Network.
• Embodiments provide for, among other things, Carrier Network independent control and delivery of selected services, wireless voice and/or data service and/or SMS technology and transport selection and/or least cost routing over wireless networks and a selected Carrier Network through commands sent to the Linked Control Device.
• Examples of a Linked Control Device embodiment would use, for example, but not limited to, linking to a multiple technology service chip-set, or the serial linking of separate network components or chip-sets on a common platform, along with the use of an external network for the Control Channel, such as, for example, a paging network and paging transceiver to receive the paging or independent Control Channel wireless command, or a satellite link antenna and chip, or other system (as illustrated in the FIGURES), to receive the independent Control Channel wireless command.
• an external network for the Control Channel such as, for example, a paging network and paging transceiver to receive the paging or independent Control Channel wireless command, or a satellite link antenna and chip, or other system (as illustrated in the FIGURES), to receive the independent Control Channel wireless command.
• Embodiments then direct the multiple network chip or the multiple network configured end-user terminal through the Linked Control Device embodiment to, in turn, acquire a third party network or wireless platform or Carrier Network in the priority and/or order directed, and with the services and capabilities then directed.
• This Control Channel can also be used for the independent and direct delivery through the Linked Control Device of services directly to end-user devices separate from a Carrier Network and/or integrated with a Carrier Network as determined by the controlling party or entity of the Control Channel.
• An additional highly desirable capability of such a Linked Control Device embodiment is the receipt of confirmation that the commands, instructions and/or controls delivered over the Control Channel have been received and acted upon.
• an enterprise, and/or an intermediary representing one or more enterprises or group of end-users will acquire for a group of users a Terminal Device containing a multi-network acquisition capability along with the capability of connecting to and receiving commands from the Linked Control Device embodiment.
• Embodiments will provide for the ability to choose for the Terminal Device a Carrier Network for the delivery of voice and/or data services and/or SMS.
• the Linked Control Device will also have the ability to receive through the Control Channel a command and/or instruction that will then determine for the Linked Control Device the Carrier Network to be used by the Terminal Device.
• This Linked Control Device along with the Terminal Device will also have the ability to communicate to the enterprise and/or intermediary that the commands, controls and/or instructions delivered over the Command Channel have been successfully received, acted upon and/or implemented. This may include commands, controls and/or instructions for additional independent services delivered over the Command Channel and/or integrated with the Carrier Network.
• the enterprise and/or intermediary Upon deployment and linking of the Linked Control Device into or integrated with the Terminal Device and the system and platform supporting the Control Channel, the enterprise and/or intermediary will choose the technology and/or Carrier Network for users or groups of users based upon service and technology availability, geographic area, capacity, capacity by time of day and/or cost and/or other characteristics or elements of the Carrier Network.
• the Linked Control Device linked to the Terminal Device will then instruct the Terminal Device to implement the command received to the Linked Control Device over the Control Channel.
• Embodiments then monitor reports of the receipt, action upon and/or subsequent implementation of the controls, commands and instructions delivered over the Control Channel.
• the process will be repeated at periodic intervals to optimize the use of wireless transport and its cost by the enterprise or by the intermediary.
• Another set of capabilities and characteristics of the Linked Control Device embodiments is the ability to directly receive and act upon independent commands and telecommunications over a wireless channel, wire line channel, link and/or Control Channel.
• An embodiment may be comprised of one or more, or all of, the following:
• a receiving antenna and chip set that allows for receipt of independent commands and/or instructions
• a microprocessor with the capability of translating received commands and/or instructions including but not limited to commands, controls or instructions delivered over the Control Channel for additional action,
• a send and receive antenna and chip set in the Terminal Device able to select and communicate with the Control Channel and separately communicate with the Carrier Network, apart from the Control Channel,
• USB port Secure Digital Card
• microcontroller and/or other interface and integrated software program between the Linked Control Device embodiment and the Terminal Device
• the Linked Control Device embodiment for providing independent command, control and instructions to the Terminal Device including, but not limited to, command, control and/or instructions received over the Control Channel is comprised of one or more, or all of, the following:
• the method and system for reporting of command and service implementation changes over the Control Channel, or, through the signaling channels across and from the Carrier Network.
• the Linked Control Device embodiment provides for separate delivery of commands to a Terminal Device received from a Control Channel and delivered from the Linked Control Device to the Terminal Device through a USB port, SD Card, Microcontroller and/or other interface.
• Embodiments provide for one or more or all of the following capabilities: a. Choice of wireless voice and/or data transport technologies, network and service provider transport and/or Carrier Network,
• Such additional services may include, but not be limited to, alerts delivered over the Control Channel and/or the Carrier Network.
• Embodiments provide for choosing the technology, network and/or service provider and/or Carrier Network for the transport of wireless voice and/or data services and /or SMS.
• Embodiments utilize an independent link or pathway to control the choice of the technology and/or transport network over the Control Channel or otherwise, and provide for an independent verification and/or confirmation of the completion of the network and/or path chosen.
• FIGURE 4 is an overview of an embodiment of a Linked Control Device with Segregated Wireless Command Control and Wireless Transport.
• FIGURE 4 provides detail with respect to a linked control device embodiment that can receive a command on a receiving Linked Control Device 33 over a separate Control Channel not controlled by a Carrier Network. Once the command is received, the command is translated through a USB Port, SD Card, microcontroller, software, wireless interface (such as, but not limited to, Bluetooth) and/or other interface 34 to command the Terminal Device 37 to acquire the Carrier Network for wireless voice and data transport.
• a USB Port, SD Card, microcontroller, software, wireless interface (such as, but not limited to, Bluetooth) and/or other interface 34 to command the Terminal Device 37 to acquire the Carrier Network for wireless voice and data transport.
• the Linked Control Device 33 and Terminal Device 37 may be deployed as separate units thus allowing for a flexible deployment of the command and control capability allowing these devices when linked to re-direct the Terminal Device 37 by a command independent of deployed wireless networks or over the Control Channel to provide for voice and data delivery over an independently selected wireless technology and/or service transport network and/or Carrier Network.
• FIGURE 5 is an overview of a Linked Control Device 33 linked with a Terminal Device 37 and with the wireless Control Channel 40.
• FIGURE 5 shows how the Terminal Device is then communicatively integrated into the Carrier Network 39 and a command/control system 41 independent of the Carrier Network 39. It also shows the ability of a the Linked Control Device and the Terminal Device to link while each device acquires respectively for the Linked Control Device 33 the Control Channel 40 and for the Terminal Device 36 the Transport Network 39.
• the separate control channel network and/or the wide-area wireless transport networks may include various high-speed high- bandwidth wireless transport platforms using technologies such as CDMA 2000, CDMA- EVDO, CDMA-EVDO Rev A, WCDMA, HSDPA, WiMax, WiFi, LTE and other and additional next generation high-speed and high-bandwidth wireless data networks such as FLO networks 39.
• FIGURE 5 shows a server for control and signaling control of the Control Channel independent of the exemplary wireless transport carriers 39 and a database for end-user information and customer usage and data repository 42 independent of the Carrier Network.
• the wireless control channel network is shown as a paging network, a satellite network, or other independent wireless network 40, that provides the ability to deliver commands over the Control Channel or otherwise to the Linked Control Device 33 independent of the wide-area wireless transport carriers or other wireless networks 39. Also shown are alternative mechanisms for receiving network change, and/or command and control implementation and/or validation, either through a two-way wireless command and control channel 37 or through a signaling channel link over IS-41, SS7 MAP links, ENUM telephone number mapping or directly through an Internet Protocol link 43.
• FIGURE 6 is a listing of additional command and control channel system commands, information and/or services that can be delivered over an independent wireless control channel and/or Control Channel to an Integrated Control Network and Transport Network Command and Control Device embodiment or to a Linked Control Device 33 and Terminal Device 44 that is integrated with both a command and control wireless network and various alternative wireless transport networks and/or Carrier Networks 39.
• FIGURE 6 shows additional commands that can be delivered over an independent command and control wireless channel 40.
• These additional commands include a command to a set-top or other device for voice, data and/or media acquisition and/or transport 45, a command for acquisition and receipt of media from FLO (Forward Link Only) media providers 46, commands for automobile and/or truck in transit data downloads and uploads across chosen networks and/or for multiple network concurrent control, swarming control and/or other voice and data communication 47.
• FLO Forward Link Only
• FIGURE 7 illustrates a truck 60 that includes a low power wireless signal repeater 61.
• the exemplary truck 60 includes a cab 62 and a first trailer (or semi-trailer) 63.
• the trailer 63 includes electrical wires that connect to the cab 62 for powering lights and in many cases an antilock braking system (ABS).
• the cab includes an exemplary low power wireless data communication device 65 (e.g., a radio frequency identification device (RFID) transponder) embodiment.
• RFID radio frequency identification device
• the trailer 63 includes a repeater device 66 embodiment that receives a transponder signal from the cab device 65, relays the received transponder signal as a second transponder signal toward an unpowered tag 67 embodiment located on a payload 68 in the trailer 63.
• the repeater device 61 embodiment in an exemplary embodiment, receives its power from the received transponder signal.
• the exemplary tag 67 uses the received second transponder signal to transmit an identification signal and other payload information to the repeater 61.
• the repeater 61 relays the identification signal and other payload information to the cab device 65.
• the cab device 65 delivers information of interest, such as, but not limited to, the trailer identification signal and payload identification signal and other payload information across the Control Channel (e.g., control network) or the Carrier Network.
• the trailer identification signal and payload identification signal is buffered or stored for later forwarding from either the trailer transponder 61 (repeater 61) and/or the cab device 65.
• the repeater 61 in the trailer 63 is powered by the Radio Frequency emissions from the cab device 65 in the cab 62.
• the repeater 61 in the trailer 63 is powered by a battery in or coupled to the repeater 61.
• the repeater 61 in the trailer 63 is powered by a solar powered device.
• the repeater 61 in the trailer 63 is powered by an alternate power supply (not shown) located in the trailer 63, which could include a wheel revolution based generator, a wind generator, a thermal differential powered generator, a fuel cell, or other onboard power generation technology.
• an alternate power supply not shown located in the trailer 63, which could include a wheel revolution based generator, a wind generator, a thermal differential powered generator, a fuel cell, or other onboard power generation technology.
• the power storage device, or battery, in the repeater can receive and store new energy from either the cab RF emissions, other RF emissions such as WiFi RF emissions and/or solar power.
• FIGURE 7 shows an additional embodiment whereby the repeater 61 in the trailer 63 communicates information of interest with and/or energizes a second repeater 69 in a second trailer (or semi-trailer) 64.
• the second repeater 69 may be energized and store power and access unpowered payload tags in the same way as the first repeater 61 from a plurality of tags. This will also apply to a third or more trailers or trailing units.
• Other embodiments may be deployed in other vehicles or vessels, such as, but not limited to, multi-car trains, ships, aircraft, busses, passenger trains, or other transportation units.
• the repeater 61 , the cab device 65, the second repeater 69, the tag 67, and other components, systems and devices are configured to communicate under the Society of Automotive Engineers (SAE) J 1939 standard.
• SAE J 1939 standard is the vehicle bus standard used for communication among the various vehicle components.
• SAE J 1939 formatted communications may be used in the commercial vehicle area for communication throughout the vehicle.
• Other embodiments may employ any suitable communication standard and/or format.
• FIGURES 8A and 8B illustrate various environments and architectures used in exemplary embodiments.
• FIGURE 8A illustrates a system 70 that allows an application produced by a third party 71 to have access to data provided to one or more wireless carriers 72a, 72b from their providers.
• the third party application may be hosted on a server 73 not associated with any of the wireless carriers 72a, 72b.
• the server 73 includes software components that convert as necessary data received from a carrier in the format necessary for the third party application.
• the server 73 includes software components that convert as necessary data received from third party application in the format necessary for the carrier and device 74.
• the device 74 is comparable to the controlled device embodiments discussed in FIGURES 1-7 above. Alternately the device 74 can be any type of device which communicates wirelessly, whether or not is meets the "controlled device" description in the FIGURES above.
• the software component located on the server 73 may be distributed across the other systems (carriers, device, third party) shown in FIGURES 8A and 8B.
• the system 70 may emulate different interfaces so that customers don't have to make significant information technology (IT) changes in order to switch from one telematics provider to a new one.
• IT information technology
• the customer's IT system uses the same connection types, data formats, and communication protocols as with the previous provider (for the connection between the customer system and the "emulator").
• the emulator then transforms/translates/etc. the information and connects it with the telematics system in use. This concept allows a customer to use multiple telematics providers simultaneously, and it can also be applied on the device end allowing the customer to use multiple devices simultaneously with the same telematics system.
• a server 73 is used to make business solutions available to customers.
• the server 73 invokes the necessary resources to ensure the necessary solution components are installed in all affected components of the system.
• a third party would receive a local application or applet to run on their local machines (computers).
• the device 74 would receive a local application, applet, configuration file, firmware or combination of these.
• the affected additional devices for example a bar code reader or scanner) would receive a local application, applet, configuration file, firmware or combination of these. All of these combined provide a single solution and would require the customer to only select the solution once and all components would automatically put in place.
• FIGURE 8A show that additional devices 77 with communication capabilities that are connectable to the device 74.
• use of the additional devices 77 is dynamically controlled by the server 73 via communications through the control network 76 (e.g., the control channel), which itself may be any suitable wireless network, such as, but not limited to, a carrier network.
• the control network 76 e.g., the control channel
• additional devices 77 include, but are not limited to, a phone, a personal computer, a game console, etc.
• the connection between the additional devices 77 and the device can be wired or wireless (such as Wifi, Bluetooth, etc.)
• the additional devices 77 may be used as a power and data storage source for an unpowered transponder device, such as an RFID transponder.
• the RFID transponder may be attached to a cell phone.
• the user can then scan payload 68 in the trailer 63 (FIGURE 7) using the RFID transponder attached to the cell phone.
• the RFID transponder and/or the cell phone passes any collected identification (ID) and payload information to the device 74 for delivery.
• RFID capability is built into the cell phone (i.e., additional device) for use in scanning items.
• the device 74 is in communication with other components 78 (sensors, actuators, engine or other controls) within the vehicle that is hosting the device 74.
• the device 74 acts as a router and gives IP addresses to any additional devices 77 or to the components 78. This not only allows the components and the additional devices 77 to send information, but also allows the server 73 to record status of those devices 77 and/or components 78, and dynamically control them. This embodiment may also be implemented such that each additional device 77 and/or component 78 is given a static IP address which never changes. (The additional devices 77 and components 78 may be interchangeably referred to herein as a controlled device 77, 78.)
• the system 70 can simultaneously utilize two or more of the available channels, such as, but not limited to, the Control Channel and/or one or more of the Carrier Networks (e.g., wireless carriers 72a, 72b) for delivery of the file.
• the use of multiple channels can be initiated by the device 74 or by the server 73.
• Example channels are voice, data, short message service (SMS), and control.
• SMS short message service
• the server 73 may separate the movie into components, and then may simultaneously, or near simultaneously, send the separate movie components to the device 74 via the multiple channels.
• the device 74 includes a software component that recombines the separately received movie components.
• the server 73 or device 74 can perform the delivery at a time that would result in the most cost effective delivery over one or more of the data channels.
• the device 74 shown in FIGURES 8A and 8B may include a single antenna 80 that is coupled to the internally located radio components.
• the device 74 includes a software component that configures signals for transmission over the antenna 80 based on the air interface technology being used, the antenna type and/or the cellular network communication protocol being used.
• a software configured antenna 80 is used whereby the antenna 80 is dynamically tuned in such a way that no matter where it is mounted, the antenna 80 will uniquely optimize its radio frequency emission pattern to best match its current operating environment about the vehicle device 74 and/or the vehicle (such as the exemplary truck 60).
• the software configured antenna 80 described above may be dynamically adjusted based current location, as received from a global positioning system (GPS) system 81 or other similar location aware technology.
• Information such as, but not limited to, current direction of travel, current speed, and calibration data related to said conditions may be determined.
• the aforementioned calibration data may be preprogrammed in the device 74 or received in real time, or near real time, over one of the wireless communication channels or control channels.
• This embodiment may be used to assist wireless reception in vehicles, such as the exemplary truck 60, which are travelling through territory where wireless coverage is marginal.
• the truck 60 may be driving in an area where it cannot receive cellular coverage with a traditional antenna.
• the device 74 could tune its antenna 80 to receive a weak signal, for example from a tower far off to its side, or ahead.
• the device 74 or server 73 is able to record effects of the environment and associate those recorded effects with location information. This information can be saved and delivered to other devices or vehicles that travel through or near the same location. When the other device receives the delivered environmental effects, a software component will calibrate transmit or receive radio components in order to compensate for the received environmental effects.
• the device 74 may be comparable to the controlled device embodiments discussed in FIGURES 1-7 above.
• the device 74 may correspond to the cab device 65, and the additional devices 77 may correspond to the repeater 61, 69 and/or the tag 67.
• the device 74 has one or more pre-assigned multiple identifiers (ID) which are stored locally. Each separate ID may be assigned to a different network or channel. For example, one ID may be assigned to the Control Channel and another assigned to a Carrier Network (e.g., wireless carriers 72a, 72b). A third ID may be assigned to an additional Carrier Network.
• ID pre-assigned multiple identifiers
• This device and ID assignment configuration allows for voice, data and/or SMS messages to be delivered over alternate networks or channels by choice of an ID in the device.
• This exemplary configuration allows for delivery of voice, data and/or SMS messages over different networks 82 simultaneously and according to pre-determined transport or business rules such, as for example, voice delivery and receipt using a designated ID and Carrier Network by time of day, by device location and/or by other pre-determined transport and business rules.
• pre-determined transport or business rules such, as for example, voice delivery and receipt using a designated ID and Carrier Network by time of day, by device location and/or by other pre-determined transport and business rules.
• Another example would be the delivery of data using a different Carrier Network or the Control Channel according to pre-determined transport or business rules such, as for example, using a designated ID and Carrier Network by time of day, by device location and/or by other pre-determined rules.
• Another example would be the delivery of SMS messages using a different Carrier Network or the Control Channel according to pre-determined transport or business rules such, as for example, using a designated ID and Carrier Network by time of day, by device location and/or by other pre-determined rules.
• pre-determined transport or business rules such, as for example, using a designated ID and Carrier Network by time of day, by device location and/or by other pre-determined rules.
• the underlying ability of the device 74 and/or system 70 to change out the choice of Carrier Network also allows each of these ID and network choice configurations to be changed on an ad-hoc basis or at selected intervals of time.
• Each of the ID's may also have an applicable Priority Roaming List (PRL) that can be altered by the server 73 according to transport rules, business rules and/or other predetermined or later determined transport and/or data rules.
• PRL Priority Roaming List
• FIGURE 8B illustrates exemplary servers 73a-73e that may be in communication with the device 74.
• the server 73 a may correspond to a web portal server or the like that provides information, data, software, applications, applets, or the like, such as from its respective database 79a.
• the server 73b may correspond to a billing and administration server or the like that provides billing information, administrative information, or the like, such as from its respective customer database 79b.
• the server 73 c may correspond to a network operations center (NOC) server or the like that provides network related information, such as from its respective carrier database 79c.
• NOC network operations center
• the server 73 d may correspond to a data collector server or the like that collects and/or provides information, such as from its respective vehicle and/or customer database 79c.
• the server 73 e may correspond to a secure third party application server protected by a firewall 83 or the like.
• FIGURES 9A-9B illustrate example software components located on the exemplary device 74 and/or servers 73a-73e of FIGURE 8B.
• the exemplary telematics device (1) may include an applications (Apps) module or portion, an input/output (I/O) and operating system (OS) portion, a data collection and processing portion, an application programming interface (API) portion, an operating system portion, a network manager (Mgr.) portion, a GPS device portion, a GPS data portion, a vehicle I/O jl 939 portion, a J1939 data portion, a wireless communication (Comm) portion, and a wireless data portion.
• Other telematics devices (1) may have fewer components, or may include additional components not described herein.
• the portions may be implemented or separately provided as devices, as systems, or as memory media. Some portions may be integrated with each other.
• the exemplary telematics services (2) embodiment may include one or more applications (Apps) module or portion, a web services interface, a web portal user interface, a usage reports portion, a database interface, a database portion (with vehicle data and/or customer data, for example), a data collector portion, and a NOC portion.
• Other telematics services (2) embodiments may have fewer components, or may include additional components not described herein.
• the portions may be implemented or separately provided as devices, as systems, or as memory media. Some portions may be integrated with each other.
• FIGURE 9C of an exemplary server 73 implemented as a NOC (3) configured to transmit and/or receive network operating information in an integrated fashion.
• the exemplary NOC (3) may include an administrative web portal user interface portion, a NOC application and reporting portion, a database portion (with carrier data and/or customer data, for example), a mobitex portion, a wireless carrier portion, a services server portion, and a billing portion.
• Other NOCs (3) may have fewer components, or may include additional components not described herein.
• the portions may be implemented or separately provided as devices, as systems, or as memory media. Some portions may be integrated with each other.
• FIGURE 9D of an exemplary server 73 implemented as a Billing and Customer Management (4) system configured to transmit and/or receive billing and/or customer information in an integrated fashion.
• the exemplary Billing and Customer Management (4) system may include an administrative web portal user interface portion, a billing application and reporting portion, a database portion (with customer data, for example), a banks and credit card information portion, a customer care portion, a services server portion, a NOC portion, and a sales portion.
• Other Billing and Customer Management (4) systems may have fewer components, or may include additional components not described herein.
• the portions may be implemented or separately provided as devices, as systems, or as memory media. Some portions may be integrated with each other.
• FIGURE 10 illustrates an exemplary software and hardware architecture used in an exemplary embodiment of the device 74.
• the exemplary device 74 comprises a Bluetooth and/or Wi-Fi module 82, a paging and/or mobitex module 83, a CDMA, GSM, and/or GPS cellular and/or GPS radio module 84, a microprocessor 85, and/or a J 1939 (CAN) data bus chip 86.
• the modules may be implemented or separately provided as devices, as systems, or as memory media. Some modules may be integrated with each other.
• routing of voice calls, data transmissions and SMS messages between the driver's phone and the in- vehicle device is based upon local conditions and associated business rules.
• local conditions include:
• geographic location e.g., road type, such as freeway or arterial;
• vehicle condition speed, direction, gear that the vehicle is in, acceleration, etc.
• a call may be delayed or changed from voice to text and delivered to the in- vehicle device 74 instead of the driver's cell phone based upon business rules and the local conditions. This is performed in order to keep from distracting the driver during a period of heavy workload, night, and/or during bad weather.
• the delivery of a call, voice message and/or SMS message is buffered until the state or condition of the vehicle (such as the exemplary truck 60) changes according to predefined threshold(s) (e.g., the business rules). When the threshold condition(s) is met, then the call or message is delivered.
• predefined threshold(s) e.g., the business rules
• a call to a driver's cell phone may be intercepted according to the rules/conditions, and then routed to mail service component in the vehicle device 74. This can be implemented with a voice over IP service. The device 74 can also record an audit trail of when this interception application is active.

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• 2010
  • 2010-08-24 EP EP10814241A patent/EP2471222A1/de not_active Withdrawn
  • 2010-08-24 BR BR112012004085A patent/BR112012004085A2/pt not_active IP Right Cessation
  • 2010-08-24 WO PCT/US2010/046489 patent/WO2011028525A1/en active Application Filing

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