摘要:
A dynamic spectrum arbitrage (DSA) system includes a dynamic spectrum policy controller (DPC) and a dynamic spectrum controller (DSC) that together dynamically manage the allocation and use of resources (e.g., spectrum resources) across different networks. The DSC component may include wired or wireless connections to eNodeBs, a mobility management entity (MME), and various other network components. These components may be configured to communicate and perform various mobility management operations to better manage and coordinate the handling (e.g., handoffs, hand-ins, backoff, etc.) of wireless devices as they are moved with respect to the allocated resources.
摘要:
A dynamic spectrum arbitrage (DSA) system includes a plurality of femtocells, a home eNodeB gateway (HGW) coupled to each of the plurality of femtocells, a dynamic spectrum controller (DSC) coupled to the HGW, and a dynamic spectrum policy controller (DPC) coupled to the DSC and a plurality of other DSCs. Each of the femtocells may be configured to monitor network conditions, generate congestion reports based on a result of the monitoring, and send the generated congestion reports to the HGW. The HGW may be configured to receive congestion reports from many different femtocells, generate congestion state information based on the received congestion reports, and send the congestion state information to the DSC. The DSC may be configured to receiving the congestion state information from one or more HGWs, and use the received congestion state information to perform intelligent DSA operations (e.g., allocating resources, requesting handins, performing backoff operations, etc.).
摘要:
A dynamic spectrum arbitrage (DSA) system includes a dynamic spectrum policy controller (DPC) and a dynamic spectrum controller (DSC) that together dynamically manage the allocation and use of resources across different networks. The DSC component may be configured to intelligently select the wireless devices for handin, such as by identifying an eNodeB that has a coverage area that is inside a geographic boundary of a bid area, receiving a list of eligible active wireless devices from the identified eNodeB, receiving a measurement report and position information for the wireless devices in the received list of eligible active wireless devices, determining the signal strengths of a target eNodeB based on the received measurement reports, and selecting for handin wireless devices from the received list of eligible active devices based on the determined signal strengths of the target eNodeB and locations of the wireless devices with respect to the geographical boundary.
摘要:
A dynamic spectrum arbitrage (DSA) system may include a dynamic spectrum policy controller (DPC) and a dynamic spectrum controller (DSC) that together dynamically manage the allocation and use of resources (e.g., spectrum resources) across different networks. The DSC and/or DPC components may be configured to monitor a congestion state of an eNodeB, and intelligently allocate resources, manage user traffic of the eNodeBs, select target eNodeBs for handovers, determine the quality of service (QoS) levels that are to be given to wireless devices attached to the eNodeBs, and/or perform other similar operations to intelligently manage the allocation and use of resources by the various networks. The DPC and/or DSC components may be also configured to perform these and other operations based on the transitions, changes, transition rates, or rates of change in the congestion levels of the network components.
摘要:
Methods and system are provided for managing and monitoring allocation of RF spectrum resources based on time, space and frequency. A network may be enabled to allocate excess spectrum resources for use by other network providers on a real-time basis. Allocated resources may be transferred from one provider with excess resources to another in need of additional resources based on contractual terms or on a real-time purchase negotiations and settlements. A network may be enabled to monitor the use of allocated resources on real-time basis and off-load or allow additional users depending on the spectrum resources availability. Public safety networks may be enabled to make spectrum resources available to general public by allocating spectrum resources and monitoring the use of those resources. During an emergency, when traffic increases on a public safety network, the public safety networks may off-load bandwidth traffic to make available necessary resources for public safety users.
摘要:
A dynamic spectrum arbitrage (DSA) system includes a home subscriber server (HSS), a mobility management entity (MME), an eNodeB, a dynamic spectrum controller (DSC), and a dynamic spectrum policy controller (DPC). The DSC may receive resource allocation information from the DPC, and send updated information and instructions to the HSS. The HSS may be configured to receive information from the DSC, detect changes to HSS subscription information (e.g., user profile information), determine whether the changes affect the information managed/stored by an MME component, and send the detected changes to the MME component when the HSS determines that the changes affect the information managed/stored by the MME. The MME component may use the information included in the received messages to add, remove, or modify the MME's stored subscription information or user profile information. The MME component may then communicate these updates, additions, or changes to the HSS component.
摘要:
A dynamic spectrum arbitrage (DSA) system may include a dynamic spectrum policy controller (DPC) and a dynamic spectrum controller (DSC) that together dynamically manage the allocation and use of resources (e.g., spectrum resources) across different networks. The DPC and DSC may store DSC context information, and use this information to perform various DSA operations. For example, the DSC may determine whether there is bandwidth available for allocation within cells in a first telecommunication network, generate a resource register request message that identifies the amount of bandwidth that is available, and send the generated resource register request message to the DPC using a DSAAP component/protocol. The DSC may receive the resource register response message and a bid success message via the DSAAP, and send a resources allocated message to the DPC via the DSAAP to commit the requested amount of bandwidth for use by the second telecommunication network.
摘要:
A dynamic spectrum arbitrage (DSA) system may include a dynamic spectrum policy controller (DPC) and a dynamic spectrum controller (DSC) that together dynamically manage the allocation and use of resources (e.g., spectrum resources) across different networks. The DSC and DPC may be configured communicate using a DSAAP protocol, component, or communication message. For example, the DSC may be configured to receive a list of resources that are available for bidding via a communication link to DPC using a DSAAP protocol, generate a bid request message to bid on a resource in the received list of resources, and send the bid request message to the DPC. The DPC may receive the bid request message from the DSC, determine whether the bid request message is valid, determine whether the DSC is a winner bidder, and sending a bid won message to the DSC via the communication link using a DSAAP protocol.
摘要:
Methods and system are provided for managing and monitoring allocation of RF spectrum resources based on time, space and frequency. A network may be enabled to allocate excess spectrum resources for use by other network providers on a real-time basis. Allocated resources may be transferred from one provider with excess resources to another in need of additional resources based on contractual terms or on a real-time purchase negotiations and settlements. A network may be enabled to monitor the use of allocated resources on real-time basis and off-load or allow additional users depending on the spectrum resources availability. Public safety networks may be enabled to make spectrum resources available to general public by allocating spectrum resources and monitoring the use of those resources. During an emergency, when traffic increases on a public safety network, the public safety networks may off-load bandwidth traffic to make available necessary resources for public safety users.