Qualcomm

About: Qualcomm is a company organization based out in Farnborough, United Kingdom. It is known for research contribution in the topics: Wireless & Signal. The organization has 19408 authors who have published 38405 publications receiving 804693 citations. The organization is also known as: Qualcomm Incorporated & Qualcomm, Inc..

Position location with low tolerance oscillator

Abstract: The present invention is a novel and improved method and apparatus for performing position location in wireless communications system. One embodiment of the invention comprises a method of performing position location in a wireless subscriber unit having a local oscillator, including the steps of receiving a position location request, acquiring a timing signal when a sufficient period of time has elapsed since the local oscillator has been corrected and correcting said local oscillator using a correction signal based on said timing signal, substantially freezing the correction signal, performing a position location procedure using the local oscillator with the correction signal applied, and ending said position location procedure.

Fast carrier allocation in multi-carrier systems

Abstract: Providing for fast allocation of additional carriers (402) in multi-carrier wireless' communication systems is de-scribed herein. By way of example, high layer protocols can be employed to allocate additional carriers to UEs (304) in a wire-less network. Additionally, management of the additional carriers can be accomplished via high, speed lower layer signaling proto-cols (206B). Management can involve acti-vating/deactivating the ' additional carriers, instructing the UE to provide carrier feed-back, monitor pilot or control channels of such carriers, or the like. Because lower layer signaling is relatively fast, activation or deactivation of the additional carrier can be quickly implemented in response to con-temporaneous changes in channel condi-tions. Thus, changes to signal quality or network loading can be determined and uti-lized to customize carrier activation in near real-time, providing efficient resource allo-cation' while conserving UE battery life.

Methods and apparatus for dataset synchronization in a wireless environment

Abstract: Methods, apparatus, systems, and computer program products1 are provided for wirelessly synchronizing datasets that are stored on a wireless device and at a network device, such as a network server or database. Present aspects provide for a simplified and efficient synchronization process, whereby synchronization can be completed in a single round-trip of wireless communication between the wireless device and the network device. Single round-trip synchronization provides for less use of network resources, shorter overall synchronization cycle times and lessens the likelihood of wireless network failures, such as call drops or the like, causing the synchronization process to fail. Additionally, simplification and efficiency are further realized by creating a synchronization process that allows the network dataset to be independent of the wireless device datasets, i.e., the network server does not require a full change history nor is the network server required to know the wireless device dataset version. The synchronization may be applied to network-based gaming applications.

i 2 WAP: Improving non-volatile cache lifetime by reducing inter- and intra-set write variations

Abstract: Modern computers require large on-chip caches, but the scalability of traditional SRAM and eDRAM caches is constrained by leakage and cell density. Emerging non-volatile memory (NVM) is a promising alternative to build large on-chip caches. However, limited write endurance is a common problem for non-volatile memory technologies. In addition, today's cache management might result in unbalanced write traffic to cache blocks causing heavily-written cache blocks to fail much earlier than others. Unfortunately, existing wear-leveling techniques for NVM-based main memories cannot be simply applied to NVM-based on-chip caches because cache writes have intra-set variations as well as inter-set variations. To solve this problem, we propose i2WAP, a new cache management policy that can reduce both inter- and intra-set write variations. i2WAP has two features: (1) Swap-Shift, an enhancement based on previous main memory wear-leveling to reduce cache inter-set write variations; (2) Probabilistic Set Line Flush, a novel technique to reduce cache intra-set write variations. Implementing i2WAP only needs two global counters and two global registers. By adopting i2WAP, we can improve the lifetime of on-chip non-volatile caches by 75% on average and up to 224%.

Method and apparatus for time efficient retransmission using symbol accumulation

Abstract: An efficient retransmission of data using symbol accumulation wherein the packet received in error is retransmitted at a lower energy-per-bit level concurrently in the same frame with the new packet. The destination device receives the data transmission and retransmission, demodulate the signal, and separates the received data into the new and retransmitted packet. The destination device then accumulates the energy of the retransmitted packet with the energy already accumulated for the packet received in error and decodes the accumulated packet. The accumulation of the additional energy provided by the subsequent retransmissions improves the probability of a correct decoding. The throughput rate can be improved since the packet received in error is retransmitted concurrently with the transmission of the new data packet. The capacity is maximized since the retransmission of the packet received in error is at a lower energy level than that of the new packet.