Global ETD Search

101	Fast scheduling strategies for WCDMA-high speed downlink packet access (HSDPA) system / Sun, Hua, January 1900 (has links) Thesis (M. App. Sc.)--Carleton University, 2003. / Includes bibliographical references (p. 92-94). Also available in electronic format on the Internet.
102	Capacity enhancement and performance analysis of call admission and load control in wireless communication networks / Ahmed, Mohamed Hossam, January 1900 (has links) Thesis (Ph. D.)--Carleton University, 2001. / Includes bibliographical references (p. 159-167). Also available in electronic format on the Internet.
103	Performance Analysis Of Multiple Access Schemes In A Wireless Packet Network Sant, Jeetendra C 08 1900 (has links) (PDF) No description available. Radio - Packet Transmission Packet Switching (Data Transmission) Wireless Packet Network Time Division Multiple Access (TDMA) Carrier Sense Multiple Access (CSMA) Code Division Multiple Access (CDMA) Slotted-ALOHA Protocol Computer Science
104	Data Processing for NASA's TDRSS DAMA Channel Long, Christopher C. 10 1900 (has links) International Telemetering Conference Proceedings / October 28-31, 1996 / Town and Country Hotel and Convention Center, San Diego, California / Presently, NASA's Space Network (SN) does not have the ability to receive random messages from satellites using the system. Scheduling of the service must be done by the owner of the spacecraft through Goddard Space Flight Center (GSFC). The goal of NASA is to improve the current system so that random messages, that are generated on board the satellite, can be received by the SN. The messages will be requests for service that the satellites control system deems necessary. These messages will then be sent to the owner of the spacecraft where appropriate action and scheduling can take place. This new service is known as the Demand Assignment Multiple Access system (DAMA). NASA's Space Network (SN) Multiple Access Doppler Shift PN codes
105	SUBMINIATURE TELEMETRY FOR MULTIPLE MUNITION (TECHNOLOGY TRANSITION) Cullen J. M., Keller, Ed 11 1900 (has links) International Telemetering Conference Proceedings / October 30-November 02, 1995 / Riviera Hotel, Las Vegas, Nevada / The Instrumentation Technology Branch of Wright Laboratory Armament Directorate (WL/MNSI), has successfully completed an Exploratory Development (6.2) program to develop Subminiature Telemetry (SMT). SMT is a flexible, programmable telemeter with self calibration, power control and Direct Sequence Spread Spectrum modulation. The development program successfully demonstrated the ability of the SMT system to collect up to 64 analog and/or 128 digital discrete signals with programmable gain, bandwidth and offset. The program demonstrated a spread spectrum multiple-access technique that allows for simultaneous transmission and receipt of up to 96 different telemetry units within a 100 MHz telemetry band. WL/MNSI is conducting an Advanced Technology Development (6.3) program to continue development in this area. An air-worthy 4 channel spread spectrum demodulator was developed to support the SMT program but it is too costly for ground applications. The goals of this effort are to reduce the demodulator cost by a factor of 10 while increasing the capability for simultaneously processing data from 24 telemetry units and to support the first Technology Transition Plan (TTP) between WL/MN and the Air Force Development Test Center (AFDTC). The TTP will facilitate the transition of SMT spread spectrum technology to AFDTC for mission support over the next three years. Spread spectrum Multiple access telemetry CDMA Subminiature telemetry
106	An iterative receiver with pilot-aided Kalman filter based channel estimation for wireless MC-CDMA communication systems Law, Tung-man., 羅東文. January 2007 (has links) published_or_final_version / abstract / Electrical and Electronic Engineering / Master / Master of Philosophy Signal detection. Code division multiple access. Wireless communication systems.
107	A study of crest factor reduction for WCDMA and IS-95 systems Kuo, Hoi, 郭海 January 2006 (has links) published_or_final_version / abstract / Electrical and Electronic Engineering / Master / Master of Philosophy Power amplifiers Signal processing - Digital techniques. Code division multiple access.
108	Transmit diversity in CDMA for wireless communications Wang, Xiangyang, 王向陽 January 2003 (has links) published_or_final_version / Electrical and Electronic Engineering / Doctoral / Doctor of Philosophy Code division multiple access Radio - Transmitters and transmission. Wireless communication systems.
109	Low power adaptive equaliser architectures for wireless LMMSE receivers Tennant, Mark P. January 2007 (has links) Power consumption requires critical consideration during system design for portable wireless communication devices as it has a direct influence on the battery weight and volume required for operation. Wideband Code Division Multiple Access (W-CDMA) techniques are favoured for use in future generation mobile communication systems. This thesis investigates novel low power techniques for use in system blocks within a W-CDMA adaptive linear minimum mean squared error (LMMSE) receiver architecture. Two low power techniques are presented for reducing power dissipation in the LMS adaptive filter, this being the main power consuming block within this receiver. These low power techniques are namely the decorrelating transform, this is a differential coefficient technique, and the variable length update algorithm which is a dynamic tap-length optimisation technique. The decorrelating transform is based on the principle of reducing the wordlength of filter coefficients by using the computed difference between adjacent coefficients in calculation of the filter output. The effect of reducing the wordlength of filter coefficients being presented to multipliers in the filter is a reduction in switching activity within the multiplier thus reducing power consumed. In the case of the LMS adaptive filter, with coefficients being continuously updated, the decorrelating transform is applied to these calculated coefficients with minimal hardware or computational overhead. The correlation between filter coefficients is exploited to achieve a wordlength reduction from 16 bits down to 10 bits in the FIR filter block. The variable length update algorithm is based on the principle of optimising the number of operational filter taps in the LMS adaptive filter according to operating conditions. The number of taps in operation can be increased or decreased dynamically according to the mean squared error at the output of the filter. This algorithm is used to exploit the fact that when the SNR in the channel is low the minimum mean squared error of the short equaliser is almost the same as that of the longer equaliser. Therefore, minimising the length of the equaliser will not result in poorer MSE performance and there is no disadvantage in having fewer taps in operation. If fewer taps are in operation then switching will not only be reduced in the arithmetic blocks but also in the memory blocks required by the LMS algorithm and FIR filter process. This reduces the power consumed by both these computation intensive functional blocks. Power results are obtained for equaliser lengths from 73 to 16 taps and for operation with varying input SNR. This thesis then proposes that the variable length LMS adaptive filter is applied in the adaptive LMMSE receiver to create a low power implementation. Power consumption in the receiver is reduced by the dynamic optimisation of the LMS receiver coefficient calculation. A considerable power saving is seen to be achieved when moving from a fixed length LMS implementation to the variable length design. All design architectures are coded in Verilog hardware description language at register transfer level (RTL). Once functional specification of the design is verified, synthesis is carried out using either Synopsys DesignCompiler or Cadence BuildGates to create a gate level netlist. Power consumption results are determined at the gate level and estimated using the Synopsys DesignPower tool. 621.382
110	Impact of actual interference on capacity and call admission control in a CDMA network. Parvez, Asad 05 1900 (has links) An overwhelming number of models in the literature use average inter-cell interference for the calculation of capacity of a Code Division Multiple Access (CDMA) network. The advantage gained in terms of simplicity by using such models comes at the cost of rendering the exact location of a user within a cell irrelevant. We calculate the actual per-user interference and analyze the effect of user-distribution within a cell on the capacity of a CDMA network. We show that even though the capacity obtained using average interference is a good approximation to the capacity calculated using actual interference for a uniform user distribution, the deviation can be tremendously large for non-uniform user distributions. Call admission control (CAC) algorithms are responsible for efficient management of a network's resources while guaranteeing the quality of service and grade of service, i.e., accepting the maximum number of calls without affecting the quality of service of calls already present in the network. We design and implement global and local CAC algorithms, and through simulations compare their network throughput and blocking probabilities for varying mobility scenarios. We show that even though our global CAC is better at resource management, the lack of substantial gain in network throughput and exponential increase in complexity makes our optimized local CAC algorithm a much better choice for a given traffic distribution profile. Code division multiple access. CDMA capacity call admission control

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