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Interference cancellation for shot-code DS-CDMA in the presence of channel fadingDutta, Amit K. 21 August 1997 (has links)
Interference from other adjacent users in wireless applications is a major problem
in direct-sequence code-division multiple-access (DS-CDMA). This is also known as the
near-far problem where a strong signal from one user interferes with other users. The
current approach to deal with the near-far problem in DS-CDMA systems is to use strict
transmitter power control. An alternative approach is to use near-far resistant receivers.
The practical near-far resistance receiver structure is the adaptive decorrelating detectors
since it avoids complex matrix inversion.
The existing CDMA standard known as IS-95 uses a long signature code
sequence. However for simplicity, the adaptive multi-user receiver uses short signature
code sequence. The problem is that adaptive receivers lose near-far resistance as the
number of users increases in the system. This thesis describes a novel method of multistage
decision feedback cancellation (DFC) scheme immune from the near-far problem.
The performance of the new DFC structure is constructed using three different adaptive
algorithms: the least mean squared (LMS), the recursive least squared (RLS) and the
linearly constraint constant modulus (LCCM) adaptive algorithms. It is found that LMS
adaptive algorithm provides the best result considering its simple hardware complexity.
It is also found that the LMS adaptive receiver along with the DFC structure provides a
better bit synchronization capability to the over all system. Since the receiver is near-far
resistant, the LMS adaptive receiver along with the decision feedback cancellation
structure also performs better in the presence of Rayleigh fading. / Graduation date: 1998
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Job and home characteristics associated with work-home interaction in the mining environment / E.M. VermeulenVermeulen, Elizabeth Maria January 2007 (has links)
Thesis (M.Com. (Industrial Psychology))--North-West University, Potchefstroom Campus, 2008.
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Relationships between symptom interference scores, reduced dietary intake, weight loss, and reduced functional capacitySchmidt, Karmen 06 1900 (has links)
Using an existing data set comprised of 368 individuals newly diagnosed with cancers of the head and neck, we investigated the predictive validity of the Head and Neck Patient Symptom Checklist (HNSC) by comparing scores on the HNSC to scores on the Patient-Generated Symptom Global Assessment (PG-SGA), and by examining the ability of HNSC scores and four demographic variables to predict dietary intake, weight loss, and functional capacity.
HNSC sensitivity (0.79 0.98), specificity (0.99 1.00), positive predictive value (92% 100%), and negative predictive value (94% - 100%) were excellent. Pain, loss of appetite and difficulty swallowing predicted 82% of reduced dietary intake. Advanced tumor stage, loss of appetite and difficulty swallowing predicted 79% of weight loss. Loss of appetite, difficulty swallowing, feeling full and lack of energy predicted 78% of reduced functional capacity.
The HNSC appears to be valid and could aid with early symptom identification, intervention and improved outcomes.
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Compensation of Parasitic Inductance for Capacitors Applied to Common- and Differential-Mode Noise SuppressionYeh, Cheng-Yen 26 July 2007 (has links)
The suitable frequency range of electromagnetic interference (EMI) filters is always limited by the parasitic inductances and capacitances of components. The main object in this research is to develop design rules for lowering parasitic effects due to parasitic inductance of capacitor by using three coupled inductors. In this thesis, the properties and equivalent circuit of three coupled inductors are discussed first. It is found that two negative series inductances can be simultaneously obtained at two ports when the parameters of three coupled inductors are appropriately selected. These two negative inductances can be used to lower parasitic effect of capacitors. In other words, the EMI filter performance can be effectively improved by using this technology. Furthermore, method to completely reduce parasitic inductances is derived. The common mode insertion loss of this design is able to achieve at the rate of -60 dB/decade at high-frequency. For differential mode the insertion loss is even higher to the rate of -100 dB/decade.
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Emotional Arousal and Interference Resolution: A Test of Arousal-biased Competition in Younger and Older AdultsWeeks, Jennifer 27 November 2012 (has links)
Arousal-biased competition (ABC; Mather & Sutherland, 2011) theory predicts that emotional arousal increases both the activation of relevant items and the suppression of irrelevant items in working memory. Study 1 tested ABC theory’s prediction in young and older adults. Suppression was measured with the Healey et al. (2010) paradigm and arousal was manipulated during interference resolution. Item accessibility was measured by comparing naming times of target and competitor words to baseline naming times. Young adults showed suppression of competitors while older adults did not. Arousal did not affect young adults’ naming times, but a mild suppression effect was seen in older adults whose arousal increased after the manipulation. A follow-up study showed that older and younger adults generally agreed on the arousing quality of the stimuli in Study 1. These studies partially support ABC theory and suggest that older adults may retain the ability to suppress irrelevant information when aroused.
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Interference Channel with State InformationZhang, Lili 2012 August 1900 (has links)
In this dissertation, we study the state-dependent two-user interference channel, where the state information is non-causally known at both transmitters but unknown to either of the receivers. We first propose two coding schemes for the discrete memoryless case: simultaneous encoding for the sub-messages in the first one and super-position encoding in the second one, both with rate splitting and Gel'fand-Pinsker coding. The corresponding achievable rate regions are established. Moreover, for the Gaussian case, we focus on the simultaneous encoding scheme and propose an active interference cancellation mechanism, which is a generalized dirty-paper coding technique, to partially eliminate the state effect at the receivers. The corresponding achievable rate region is then derived. We also propose several heuristic schemes for some special cases: the strong interference case, the mixed interference case, and the weak interference case. For the strong and mixed interference case, numerical results are provided to show that active interference cancellation significantly enlarges the achievable rate region. For the weak interference case, flexible power splitting instead of active interference cancellation improves the performance significantly.
Moreover, we focus on the simplest symmetric case, where both direct link gains are the same with each other, and both interfering link gains are the same with each other. We apply the above coding scheme with different dirty paper coding parameters. When the state is additive and symmetric at both receivers, we study both strong and weak interference scenarios and characterize the theoretical gap between the achievable symmetric rate and the upper bound, which is shown to be less than 1/4 bit for the strong interference case and less than 3/4 bit for the weak interference case. Then we provide numerical evaluations of the achievable rates against the upper bound, which validates the theoretical analysis for both strong and weak interference scenarios. Finally, we define the generalized degrees of freedom for the symmetric Gaussian case, and compare the lower bounds against the upper bounds for both strong and weak interference cases. We also show that our achievable schemes can obtain the exact optimal values of the generalized degrees of freedom, i.e., the lower bounds meet the upper bounds for both strong and weak interference cases.
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The application of multispectral analysis to reduce cloud interferenceHuang, Yujie January 2010 (has links)
For multispectral Remote Sensing (RS) image analysis, a big problem is that original dataalways include Clouds-Interference (CI). Especially in the bad weather conditions, the CI is evidentin RS image. So during the pre-processing of RS image, the CI should be reduced as much aspossible. In this paper, reducing CI is researched as the central problem, so that much Ground-Objects Feature (GOF) can be obtained. An analysis about the clouds reflection in differentSpectral-Bands (SBs) was done based on optical theory and early researches. Moreover, therelationships between clouds reflection and ground-objects reflection are presented to understandwhat the Digital Number (DN) represented in each SB, and to reduce the impact of CI the Same DNSpectral Matching Method (SDN-SMM) based on the multispectral application is applied. Finally,two cases are tested using Matlab Programme to indicate the rationality and practicability of SDNSMM.About SDN-SMM, some advantages and disadvantages are concluded through discussion onfinal results. The method can be used in any kind of multispectral sensors image with simplecalculation, while, the original data of clouds-free region will not be changed. However, the qualityof CI reduction depends on the precision of clouds identification and the SB which is used forspectral position relationship creating. In the end of this paper, the improvement is also presentedfor the future work.
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Resource Allocation in Relay Enhanced Broadband Wireless Access NetworksThulasiraman, Preetha January 2010 (has links)
The use of relay nodes to improve the performance of broadband wireless access (BWA) networks has been the subject of intense research activities in recent years. Relay enhanced BWA networks are anticipated to support multimedia traffic (i.e., voice,
video, and data traffic). In order to guarantee service to network users, efficient resource distribution is imperative. Wireless multihop networks are characterized by two inherent dynamic characteristics: 1) the existence of wireless interference and 2) mobility of user nodes. Both mobility and interference greatly influence the ability of users to obtain the necessary resources for service. In this dissertation we conduct a comprehensive research study on the topic of resource allocation in the presence of interference and mobility. Specifically, this dissertation investigates the impact interference and mobility have on various aspects of resource allocation, ranging from fairness to spectrum utilization. We study four important resource allocation algorithms for relay enhanced BWA networks. The problems and our research achievements are briefly outlined as follows.
First, we propose an interference aware rate adaptive subcarrier and power allocation
algorithm using maximum multicommodity
flow optimization. We consider the impact of
the wireless interference constraints using Signal to Interference Noise Ratio (SINR). We
exploit spatial reuse to allocate subcarriers in the network and show that an intelligent
reuse of resources can improve throughput while mitigating the impact of interference.
We provide a sub-optimal heuristic to solve the rate adaptive resource allocation problem. We demonstrate that aggressive spatial reuse and fine tuned-interference modeling garner advantages in terms of throughput, end-to-end delay and power distribution.
Second, we investigate the benefits of decoupled optimization of interference aware
routing and scheduling using SINR and spatial reuse to improve the overall achievable
throughput. We model the routing optimization problem as a linear program using maximum concurrent flows. We develop an optimization formulation to schedule the link traffic such that interference is mitigated and time slots are reused appropriately based on spatial TDMA (STDMA). The scheduling problem is shown to be NP-hard and is solved using the column generation technique. We compare our formulations to conventional counterparts in the literature and show that our approach guarantees higher throughput by mitigating the effect of interference effectively.
Third, we investigate the problem of multipath flow routing and fair bandwidth allocation under interference constraints for multihop wireless networks. We first develop a novel isotonic routing metric, RI3M, considering the influence of interflow and intraflow interference. Second, in order to ensure QoS, an interference-aware max-min fair bandwidth allocation algorithm, LMX:M3F, is proposed where the lexicographically largest bandwidth allocation vector is found among all optimal allocation vectors while considering constraints of interference on the flows. We compare with various interference based routing metrics and interference aware bandwidth allocation algorithms established in the literature to show that RI3M and LMX:M3F succeed in improving network performance in terms of delay, packet loss ratio and bandwidth usage.
Lastly, we develop a user mobility prediction model using the Hidden Markov Model(HMM) in which prediction control is transferred to the various fixed relay nodes in the
network. Given the HMM prediction model, we develop a routing protocol which uses
the location information of the mobile user to determine the interference level on links
in its surrounding neighborhood. We use SINR as the routing metric to calculate the
interference on a specific link (link cost). We minimize the total cost of routing as a
cost function of SINR while guaranteeing that the load on each link does not exceed
its capacity. The routing protocol is formulated and solved as a minimum cost
flow optimization problem. We compare our SINR based routing algorithm with conventional counterparts in the literature and show that our algorithm reinforces routing paths with high link quality and low latency, therefore improving overall system throughput.
The research solutions obtained in this dissertation improve the service reliability and QoS assurance of emerging BWA networks.
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Interference Mitigation in Wireless CommunicationsKim, Kihong 24 August 2005 (has links)
The primary objective of this thesis is to design advanced interference resilient schemes for asynchronous slow frequency hopping wireless personal area networks (FH-WPAN) and time division multiple access (TDMA) cellular systems in interference dominant environments. We also propose an interference-resilient power allocation method for multiple-input-multiple-output (MIMO) systems.
For asynchronous FH-WPANs in the presence of frequent packet collisions, we propose a single antenna interference canceling dual decision feedback (IC-DDF) receiver based on joint maximum likelihood (ML) detection and recursive least squares (RLS) channel estimation. For the system level performance evaluation, we propose a novel geometric method that combines bit error rate (BER) and the spatial distribution of the traffic load of CCI for the computation of packet error rate (PER). We also derived the probabilities of packet collision in multiple asynchronous FH-WPANs with uniform and nonuniform traffic patterns.
For the design of TDMA receivers resilient to CCI in frequency selective channels, we propose a soft output joint detection interference rejection combining delayed decision feedback sequence estimation (JD IRC-DDFSE) scheme. In the proposed scheme, IRC suppresses the CCI, while DDFSE equalizes ISI with reduced complexity. Also, the soft outputs are generated from IRC-DDFSE decision metric to improve the performance of iterative or non-iterative type soft-input outer code decoders.
For the design of interference resilient power allocation scheme in MIMO systems, we investigate an adaptive power allocation method using subset antenna transmission (SAT) techniques. Motivated by the observation of capacity imbalance among the multiple parallel sub-channels, the SAT method achieves high spectral efficiency by allocating power on a selected transmit antenna subset. For 4 x 4 V-BLAST MIMO systems, the proposed scheme with SAT showed analogous results. Adaptive modulation schemes combined with the proposed method increase the capacity gains. From a feasibility viewpoint, the proposed method is a practical solution to CCI-limited MIMO systems since it does not require the channel state information (CSI) of CCI.
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Can modular examples and contextual interference improve transfer?Gane, Brian D. 26 May 2006 (has links)
Two instructional design features hypothesized to affect problem solving performance, problem format and contextual interference, were investigated. Problem format was manipulated by altering the format of worked examples to demonstrate a molar or modular solution. Contextual interference was manipulated by randomizing the order in which problem categories were studied. Participants studied worked examples from 5 complex probability categories and solved 11 novel problems. The modular problem format reduced study time and the workload during study and increased performance on the subsequent test. Greater contextual interference increased study time but had no effect on workload or test performance. Additionally, a regression analysis demonstrated that mental workload partially mediated the effect of problem format on test performance. A separate regression analysis did not demonstrate that working memory capacity moderated the effect of problem format on mental workload.
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