Priority and preemption service system for satellite related communication using central controller
First Claim
1. In a communications system including at least one antenna for receiving and transmitting messages to and from feederlink earth stations (FESs) connected to at least one land line communications network and mobile earth terminals (METs) of a mobile communication system;
- a communication switching office connected to said at least one antenna and coupled through an interface system to a central controller; and
a network operations center (NOC) for managing and controlling resources of the communications system, the NOC communicating with various internal and external entities in a control network, allocating said system resources, updating network functions, enabling monitoring of customer usage, detecting fault conditions, and transmitting system information to an operator station, a priority and preemption system for managing resources in real time to satisfy a resource request for a priority and preemption event, said priority and preemption system performing the functions of;
processing a resource allocation request for communications resources in the communications system when said communication system has identified underutilized communication resources, and when said communications system has not identified underutilized communications resources and the resource allocation request has sufficient priority; and
releasing the communication resources to be used for the priority and preemption event, said releasing the communication resources occurring in response to the resource allocation request of the sufficient priority or in response to the identified underutilization of said communication resources within the communications system.
7 Assignments
0 Petitions
Accused Products
Abstract
A priority and preemption method for performing a priority and preemption process includes the steps of satisfying a resource acquisition request from a reserve pool for an external system, and when the resource acquisition request cannot be satisfied from the reserve pool, requesting additional unused frequencies, and when the additional unused frequencies are not available, requesting to preempt active calls. The method also includes the step of replenishing the power and the frequencies received from the frequency controller, the data hub and/or the independent operations controller when the frequencies are no longer needed by the priority and preemption system.
-
Citations
12 Claims
-
1. In a communications system including at least one antenna for receiving and transmitting messages to and from feederlink earth stations (FESs) connected to at least one land line communications network and mobile earth terminals (METs) of a mobile communication system;
- a communication switching office connected to said at least one antenna and coupled through an interface system to a central controller; and
a network operations center (NOC) for managing and controlling resources of the communications system, the NOC communicating with various internal and external entities in a control network, allocating said system resources, updating network functions, enabling monitoring of customer usage, detecting fault conditions, and transmitting system information to an operator station, a priority and preemption system for managing resources in real time to satisfy a resource request for a priority and preemption event, said priority and preemption system performing the functions of;processing a resource allocation request for communications resources in the communications system when said communication system has identified underutilized communication resources, and when said communications system has not identified underutilized communications resources and the resource allocation request has sufficient priority; and
releasing the communication resources to be used for the priority and preemption event, said releasing the communication resources occurring in response to the resource allocation request of the sufficient priority or in response to the identified underutilization of said communication resources within the communications system. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
data management means for transmission and receipt of information with other components of the network operations center, said data management means including a NOC data base;
configuration management means for allocating system resources;
network management means for updating network functions;
call records management means for enabling monitoring of customer usage;
event management means for detecting fault conditions; and
operator interface means for transmitting system information to an operator station.
- a communication switching office connected to said at least one antenna and coupled through an interface system to a central controller; and
-
6. A priority and preemption system as recited in claim 1, wherein the priority and preemption system provides a sequential method of restoring the reserve pool minimizing the necessity of actual preemption of an active call, maximizing usage of at least one of the additional unused frequencies and idle capacity due to a demand nature of service.
-
7. A priority and preemption system as recited in claim 1, wherein the priority and preemption system further performs at least one of the following automatic transactions:
-
Major Alarms (NOC to external system)—
wherein this transaction comprises a first summary message indicating that a first major alarm condition has occurred and to alert operators to a possible requirement for action or intervention;
Major Alarms (external system to NOC)—
wherein this transaction comprises a second summary message indicating that a second major alarm condition has occurred within the external system and to alert operators to a possible requirement for action or intervention;
Resource Acquisition Request (external system to NOC)—
wherein this transaction comprises a request for satellite resources under emergency conditions, and when the satellite resources are not available to service this request, preemption occurs;
Resource Acquisition Response (NOC to external system)—
wherein this transaction comprises a positive acknowledgment of a Resource Acquisition Request identifying channels or frequencies;
Resource Release (external system to NOC)—
wherein this transaction comprises a message detailing release or partial release of resources acquired under emergency conditions;
Summary Status Request (Bidirectional)—
wherein this transaction comprises a periodic automatic message requesting a confidence summary status of report of a condition of a satellite or the NOC;
Summary Status Confidence Report (Bidirectional)—
wherein this transaction provides a summary confidence report showing the state of major operational conditions of a satellite and either the NOC or the external system.
-
-
8. A priority and preemption system as recited in claim 1, wherein the priority and preemption system further performs at least one of the following console transactions:
-
Operator Message Request (Bidirectional)—
wherein this transaction comprises a first message between operators requesting operational information;
Operator Message Response (Bidirectional)—
wherein this transaction comprises a second message between operators conveying requested operational information;
Status/Info Request (Bidirectional)—
wherein this transaction comprises a request for information or reports which are electronically generated or stored, but which requires operator intervention for access, transmission, or authorization;
Status/Info (Bidirectional)—
wherein this transaction comprises transmission of information or reports which are electronically generated or stored, but which requires operator intervention for access, transmission, or authorization and occurs in response to a request;
Database/File Request (Bidirectional)—
wherein this transaction comprises a request for database information or files which are electronically generated or stored, but which require operator intervention for access, transmission, or authorization;
Database/File (Bidirectional)—
wherein this transaction comprises transmission of database information or files which are electronically generated or stored, but which require operator intervention for access, transmission, or authorization and occurs in response to a request;
Resource Allocation Request (AMS(R)S NOC to NOC)—
wherein this transaction comprises a request for allocation of satellite resources for general use, such as resale to customers/users and this transaction does not result in pre-emption;
Resource Allocation Response (NOC to AMS(R)S NOC)—
wherein this transaction comprises a response to a Resource Allocation Request and indicates a denial or details of a full or partial allocation of requested resources;
Resource Release Request (Bidirectional)—
wherein this transaction comprises a message requesting de-allocation of non-emergency resources;
Resource Release Acknowledge (Bidirectional)—
wherein this transaction comprises a response to a Resource Release Request acknowledging or declining release of satellite resources.
-
-
9. A priority and preemption system as recited in claim 1, wherein said priority and preemption system further performs the function of replenishing a reserve pool by obtaining unused frequencies from other available circuit pools or from independent NOCs which lease frequencies within a predetermined frequency band.
-
10. A priority and preemption system as recited in claim 9 wherein the reserve pool is assigned a rank order that determines an order in which the frequencies are used for the external system.
-
11. A priority and preemption system as recited in claim 10, wherein said priority and preemption system returns the frequencies in the reserve pool in a sequence determined by priority level and rank order of the frequencies in accordance with predetermined criteria.
-
12. A priority and preemption system as recited in claim 1, wherein said priority and preemption system determines whether a reserve pool has been replenished to resource levels above a configurable threshold, and when the configurable threshold is reached, excess resources are returned to the at least one of the frequency controller, the data hub and the independent operations controller leasing the frequencies.
Specification