Framework for quantifying a total quality of experience for subscribers in a communications network

What is claimed is: 1. A method, implemented by a computer, for providing a framework for quantifying a total quality of experience for subscribers in a communications network, comprising: providing a headend for providing video and data to a plurality of subscribers having subscriber equipment via a network; obtaining feedback from a set of subscribers of the plurality of subscribers wherein the feedback comprises: providing from the set of subscribers a set of scores representing a quality of experience associated with a first application, each of the set of scores being weighted by each score's importance to the first application; providing from the set of subscribers a second set of scores representing a quality of experience associated with a second application, each of the second set of scores being weighted by each score's importance to the second application; calculating, via the processor, a composite score for the quality of experience for the first application based on the first set of scores from each subscriber of the set of subscribers; calculating, via the processor, a composite score for the quality of experience for the second application based on the second set of scores from each subscriber of the set of subscribers; and calculating, via the processor, a weighted average score, the weighted average score being the average of composite scores for the first and second applications from each subscriber of the set of subscribers; foregoing receiving feedback from the plurality of subscribers other than the set of subscribers; providing, via the processor, a third set of scores associated with network parameters that are not weighted based on the first and second applications; generating, via the processor, a total quality of experience score for the plurality of subscribers based on the weighted average score of the first and second applications from the set of subscribers and the third set of scores associated with network parameters; and providing services over the network to the plurality of subscribers including other than the set of subscribers based on statistical analyzed feedback including the total quality of experience score from the set of subscribers. 2. The method of claim 1 , wherein the calculating the weighted average score comprises providing an average of composite scores weighted by popularity of each application of the first and second applications. 3. The method of claim 1 , wherein the calculating the weighted average score comprises providing standardized values of latency, jitter, and packet loss weighted by a factor representing importance to each of the first and second applications. 4. The method of claim 3 , wherein the providing the standardized values comprises providing values measured in terms of average deviations. 5. The method of claim 1 , wherein the providing a third set of scores associated with network parameters further comprises: providing a first score representing signal power associated with the first and second applications; providing a second score representing signal quality associated with the first and second applications; and providing a third score representing an average network speed associated with the first and second applications. 6. The method of claim 5 , wherein the providing a second score representing signal quality comprises providing a downstream signal-to-noise ratio, a upstream signal-to-noise ratio, and a QAM output modulation error ratio. 7. The method of claim 5 , wherein the providing the first score, second score and third score comprise calculating a standardize value represented by (data value−threshold value)/threshold value. 8. The method of claim 5 , wherein the providing a third score representing an average network speed further comprises sending test packets to modems for a plurality of network elements in the network to determine a transit time for the packets to arrive at the modems and gathering the network speed data for the plurality of network elements in a storage device at a headend. 9. The method of claim 1 , wherein the providing a third set of scores associated with network parameters further comprises using a modem transmit level and a modem receive level for signal power levels. 10. A system for processing quality of service data to provide a prediction of quality of experience, comprising: a headend for providing video and data to a plurality of subscribers having subscriber equipment via a hybrid fiber/coax (HFC) network; a plurality of distribution hubs, the plurality of distribution hubs coupling network elements from the subscriber equipment to the headend; and a storage device, coupled to the headend, for storing states for a plurality of network parameters and scores associated with a level of satisfaction with the service being provided wherein the scores are being provided by a set of subscribers of the plurality of subscribers while the states for a plurality of network parameters are varied; wherein the headend further comprises a processor for providing a framework to quantify a total quality of experience for the plurality of subscribers in a communications network, the processor obtaining feedback from the set of subscribers wherein the feedback comprises a set of scores representing a quality of experience associated with a first application and a second set of scores representing a quality of experience associated with a second application, each of the set of scores from the set of subscribers being weighted by each score's importance to the first and second applications, calculating a composite score for the set of subscribers for the quality of experience for the first and second applications, calculating a weighted average score, the weighted average score being the average of composite scores for the first and second applications from the set of subscribers, foregoing receiving feedback from the plurality of subscribers other than the set of subscribers, providing a third set of scores associated with network parameters that are not weighted based on the first and second applications, and generating a total quality of experience score for the plurality of subscribers based on the weighted average score of the first and second applications from the set of subscribers and the third set of scores associated with network parameters, and providing services over the network to the plurality of subscribers including other than the set of subscribers based on statistical analyzed feedback including the total quality of experience score from the set of subscribers. 11. The system of claim 10 , wherein the processor calculates the weighted average score by using an average of composite scores weighted by popularity of each application of the first and second applications. 12. The system of claim 10 , wherein the processor calculates the weighted average score by using standardized values of latency, jitter, and packet loss weighted by a factor representing importance to each of the first and second applications. 13. The system of claim 10 , wherein the standardized values comprises values measured in terms of average deviations. 14. The system of claim 10 , wherein the processor calculates a third set of scores associated with network parameters by: processing a first score representing signal power associated with the first and second applications; processing a second score representing signal quality associated with the first and second applications; and processing a third score representing an average network speed associated with first and second applications. 15. The system of claim