blind decoding schemes are proposed as tools for protecting customers'privacy in on-line shopping for electronic documents such that the company has no way of knowing which documents the customers have purchased. ...
详细信息
ISBN:
(纸本)9780769537443
blind decoding schemes are proposed as tools for protecting customers'privacy in on-line shopping for electronic documents such that the company has no way of knowing which documents the customers have purchased. Most of the blind decoding schemes suffer from the oracle problem. Schemes utilizing the transformability of digital signatures were proposed to ensure the correctness of the requests from the customers. In this paper, a secure blind decoding scheme based on RSA scheme is proposed. It does not utilize the transformability of RSA digital signature.
The Physical Downlink Control Channel (PDCCH) is used to signal dynamic resource assignment information in Long Term Evolution (LTE) *** the presence of numerous active users,their control channel resource location ba...
详细信息
ISBN:
(纸本)9781467321006
The Physical Downlink Control Channel (PDCCH) is used to signal dynamic resource assignment information in Long Term Evolution (LTE) *** the presence of numerous active users,their control channel resource location based on PDCCH blind decoding mechanism is determined by the Radio Network Temporary Identifier (RNTI) which is allocated to them by eNodeB when they first access to the *** paper presents optimal and efficient resource allocation algorithms based on new RNTI allocation scheme for *** evaluation indexes of the proposed scheduling algorithms are evaluated through Monte-Carlo *** results indicate that system performance (like block probability,CCE utilization and allocation delay time) can be improved significantly with our proposed algorithms.
In this article,a new method to design the receiver for PUCCH Format 2 is proposed for performance optimization in a LTE *** method based on an LS estimator and linear interpolation is blind decoding *** it adopts met...
详细信息
In this article,a new method to design the receiver for PUCCH Format 2 is proposed for performance optimization in a LTE *** method based on an LS estimator and linear interpolation is blind decoding *** it adopts metric comparison to compare errors from each branch and selects optimal *** the simulation,we find that the performance of new receiver for PUCCH Format 2 is better than that of conventional receiver.
In this article,a new method to design the receiver for PUCCH Format 2 is proposed for performance optimization in a LTE *** method based on an LS estimator and linear interpolation is blind decoding *** it adopts met...
详细信息
In this article,a new method to design the receiver for PUCCH Format 2 is proposed for performance optimization in a LTE *** method based on an LS estimator and linear interpolation is blind decoding *** it adopts metric comparison to compare errors from each branch and selects optimal *** the simulation,we find that the performance of new receiver for PUCCH Format 2 is better than that of conventional receiver.
The Physical Downlink Control Channel (PDCCH) is used to signal dynamic resource assignment information in Long Term Evolution (LTE) *** the presence of numerous active users,their control channel resource location ba...
详细信息
The Physical Downlink Control Channel (PDCCH) is used to signal dynamic resource assignment information in Long Term Evolution (LTE) *** the presence of numerous active users,their control channel resource location based on PDCCH blind decoding mechanism is determined by the Radio Network Temporary Identifier (RNTI) which is allocated to them by eNodeB when they first access to the *** paper presents optimal and efficient resource allocation algorithms based on new RNTI allocation scheme for *** evaluation indexes of the proposed scheduling algorithms are evaluated through Monte-Carlo *** results indicate that system performance (like block probability,CCE utilization and allocation delay time) can be improved significantly with our proposed algorithms.
暂无评论