Improved multi-point communication for data and voice over IEEE 802.11b

Zhao, Dongmei

04 March 2004

There is a growing demand for faster, improved data and voice services in rural areas without modern telecom infrastructure. A wireless network is often the only feasible solution for providing network access in this environment, due to the sparse populations and difficult natural conditions. A system solution that incorporates the Multipoint Communication System (MCS) algorithm created by TRLabs into the available IEEE 802.11b Wireless Local Area Network (WLAN) devices was proposed and studied in this thesis. It combines the advantages of both systems, that is, the MCS capability of integrating Voice over Internet Protocol (VoIP) and data services and the IEEE 802.11b standard, currently the most widely used in WLAN products. A system test bed was set up inside Network Simulator-2 (NS-2). The data and VoIP performance was tested. Modifications to the original MCS algorithm to improve system performance were made throughout this thesis. In a constant rate radio channel, data performance (throughput and transmission efficiency) was measured using the original MCS algorithm, which was comparable to the standard Distribution Coordination Function (DCF) operation of IEEE 802.11b when both were simulated at similar conditions. On an 802.11b platform, the Automatic Rate Fallback (ARF) feature was incorporated into the original MCS algorithm. However, when clients with different data rates were present in the same channel, all the clients involved received unacceptably low and equal data throughput, dragged down by the low rate clients. A modified MCS data polling algorithm was proposed with the capability of repeated polling, which eliminated the negative effect of low rate clients in a multi-rate channel. In addition, the original MCS algorithm was modified to be more efficient in the voice polling process. The voice performance and data throughput were tested at various conditions. However, the one-by-one polling still resulted in very low voice transmission efficiency. The time wasted became more severe with increasing relay distance and channel rate (only 8.5% in an 11 Mbps channel at 30 km). A new voice handling process similar to Time Division Multiple Access (TDMA) mode was implemented and simulated. Its voice efficiency can be kept at 25% at any setting of relay distance and channel rate. Data transmission in the same channel can also benefit from using the new voice scheme. The normalized saturation throughput could be improved by 13.5% if there were 40 voice clients involved in an 11 Mbps channel at the relay distance of 15 km, compared to the original MCS algorithm. More improvement in voice efficiency, voice capacity, and data throughput can be achieved at longer relay distance, or with more voice calls set up.

802.11b

Multi-point

Data

Voice

Improved multi-point communication for data and voice over IEEE 802.11b

Zhao, Dongmei

04 March 2004

There is a growing demand for faster, improved data and voice services in rural areas without modern telecom infrastructure. A wireless network is often the only feasible solution for providing network access in this environment, due to the sparse populations and difficult natural conditions. A system solution that incorporates the Multipoint Communication System (MCS) algorithm created by TRLabs into the available IEEE 802.11b Wireless Local Area Network (WLAN) devices was proposed and studied in this thesis. It combines the advantages of both systems, that is, the MCS capability of integrating Voice over Internet Protocol (VoIP) and data services and the IEEE 802.11b standard, currently the most widely used in WLAN products. A system test bed was set up inside Network Simulator-2 (NS-2). The data and VoIP performance was tested. Modifications to the original MCS algorithm to improve system performance were made throughout this thesis. In a constant rate radio channel, data performance (throughput and transmission efficiency) was measured using the original MCS algorithm, which was comparable to the standard Distribution Coordination Function (DCF) operation of IEEE 802.11b when both were simulated at similar conditions. On an 802.11b platform, the Automatic Rate Fallback (ARF) feature was incorporated into the original MCS algorithm. However, when clients with different data rates were present in the same channel, all the clients involved received unacceptably low and equal data throughput, dragged down by the low rate clients. A modified MCS data polling algorithm was proposed with the capability of repeated polling, which eliminated the negative effect of low rate clients in a multi-rate channel. In addition, the original MCS algorithm was modified to be more efficient in the voice polling process. The voice performance and data throughput were tested at various conditions. However, the one-by-one polling still resulted in very low voice transmission efficiency. The time wasted became more severe with increasing relay distance and channel rate (only 8.5% in an 11 Mbps channel at 30 km). A new voice handling process similar to Time Division Multiple Access (TDMA) mode was implemented and simulated. Its voice efficiency can be kept at 25% at any setting of relay distance and channel rate. Data transmission in the same channel can also benefit from using the new voice scheme. The normalized saturation throughput could be improved by 13.5% if there were 40 voice clients involved in an 11 Mbps channel at the relay distance of 15 km, compared to the original MCS algorithm. More improvement in voice efficiency, voice capacity, and data throughput can be achieved at longer relay distance, or with more voice calls set up.

802.11b

Multi-point

Data

Voice

Secure Distributed Switching and Addressing Using FPGAs / Säker distribuerad switchning och adressering med FPGAer

Uppman, Johan

January 2012

This master’s thesis is based on the idea to extend a point-to-point 10 Gbps Ethernet cryptoto a multi-point 10 Gbps Ethernet crypto. The multi-point extension is targeted for a fictiveproduct called Krypet. Extending Krypet to multi-point can be seen as creating a distributed Ethernet switch wherethe ports are Krypet units and the information passed between the ports is encrypted. Problems that occur when this extension is designed are identified and analysed. Some problemexamples are address lookup, session changes and packet switching. Different solutions to the identified problems are presented and these are compared anddiscussed. Requirements on the whole multi-point extension are determined and an architecturebased on the solutions is designed. The architecture is implemented and the resultof the implementation is discussed. The implementation successfully extends the system tomulti-point support and satisfies most of the determined requirements.

FPGA

Ethernet

multi-point

communication

CAM

DST

FPGA

Ethernet

multipunkt

kommunikation

CAM

DST

NAT Free Open Source 3D Video Conferencing using SAMTK and Application Layer Router

Muramoto, Eiichi, Jinmei, Tatsuya, Kurosawa, Takahiro, Abade, Odira Elisha, Nishiura, Shuntaro, Kawaguchi, Nobuo

10 January 2009

No description available.

Application Layer Multicast

NAT traversal

3D Video Conferencing

Multi-point Communication

SAMTK

Sací potrubí zážehového motoru na CNG o výkonu 140kW / Intake Manifold for 140kW CNG Engine

Wojcik, Rudolf

January 2013

The master´s thesis is focused on the design of the multi-point CNG injection for the VW 1.4 TSI intake manifold turbocharged spark ignited engine. The 3D model that was created using Autodesk Inventor Professional 2012 is based on the real intake manifold. This model served as an input for CFD analyses of mixing CNG with air. These were made in STAR-CCM+ software.

Linear Precoding for Downlink Network MIMO Systems

Sadeghzadeh Nokhodberiz, Seyedmehdi

22 May 2013

No description available.

Electrical Engineering

Network MIMO

coordinated multi-point

precoding

block diagonalization

null space

Multi-point temperature sensing in gas turbines using fiber-based intrinsic Fabry-Perot interferometers

Shillig, Tyler

01 June 2013

Due to their compact size, sensitivity, and ability to be multiplexed, intrinsic Fabry-Perot interferometers (IFPIs) are excellent candidates for almost any multi-point temperature or strain application, and it is well-known that using a single-mode lead-in fiber, a multi-mode fiber section as the Fabry-Perot cavity, and an additional single-mode fiber as the tail results in a structure that generates strong interference fringes while remaining robust. Though the basic principles behind these sensors are understood, to the best of the author's knowledge there hasn't been a thorough investigation into the design and fabrication of a chain of multiplexed IFPI sensors for industrial use in an environment where serious issues associated with the size of the test coupon, sensor placement, and mechanical reinforcement of the fiber could arise. This thesis details the preparation and results of this investigation. It turns out that fabricating a sensor chain with appropriate sensor spacing and excellent temperature response characteristics proved a significant challenge, and issues addressed include inter-sensor interference, high-temperature mechanical reinforcement for bare fiber sections, and high bending losses. After overcoming these problems, a final sensor chain was fabricated and characterized. This chain was then subjected to a battery of tests at the National Energy Technology Laboratory (NETL), where four multiplexed sensors were installed on a 2â x2â coupon in a simulated gas turbine environment. Final results are presented and analyzed. The work that went into developing this chain lays the foundation for future efforts in developing quasi-distributed temperature sensors by identifying potential obstacles and fundamental limitations for certain approaches. / Master of Science

Optical Fiber Sensor

IFPI

Gas Turbine

Intrinsic Fabry-Perot Interferometer

Multi-point Sensing

Fiber-optic

Caracterização experimental da radiação térmica emitida por chamas não pré-misturadas de metano diluído com CO2

Machado, Isaias Mortari

January 2015

No presente trabalho é apresentado um estudo do efeito da diluição com inertes sobre as características da transferência de calor por radiação em chamas laminares não pré-misturadas de metano. O trabalho também apresenta um estudo sobre a modelagem do fluxo radiativo proveniente de chamas turbulentas visando à obtenção de fatores de ponderação para o modelo das múltiplas fontes pontuais. Em ambos os estudos, a distribuição do fluxo radiante é obtida através de medições ao longo do eixo da chama e os valores de fração radiante são calculados a partir da integração dessa distribuição. É mostrado qualitativamente que a adição de gás inerte ao combustível propicia a inibição da formação de fuligem. É mostrado quantitativamente que a adição de gás inerte pode reduzir ou ampliar a fração radiante da chama, dependendo do tipo de gás, dos níveis de diluição e do tempo de residência característico da chama. São reportados valores para os fatores de ponderação utilizados no modelo de múltiplas fontes pontuais obtidos experimentalmente a partir de medições nas chamas. O formato da curva formada pelos fatores de ponderação é semelhante para os diferentes níveis de diluição com gás carbônico. A utilização desses fatores de ponderação no modelo de múltiplas fontes pontuais apresenta resultados satisfatórios em comparação com a distribuição dos fluxos radiativos medidos ao longo do eixo da chama. / In this work it is presented a study of the effect of fuel dilution with inerts on the radiative heat transfer characteristics of laminar non premixed methane flames. A study on the radiative flux distribution from turbulent flames is conducted in order to obtain weighting factors for the model of multiple point sources. The distribution of radiative heat flux is obtained by measuring the fluxes along the axis of the flame and the radiant fraction is calculated by the integration of such distribution. It is qualitatively shown that the addition of inert gas in the fuel leads to the inhibition of soot formation. It is quantitatively shown that the addition of inert may decrease or increase the radiant fraction depending on gas type, dilution levels and characteristic residence times of the flame. It is also reported values for the weighting factors used in the model of multiple point sources experimentally obtained from measurements. The shapes of the curves formed by the weighting factors are similar for the different dilution levels of carbon dioxide. The use of these weighting factors in the multi-point source model shows satisfactory results in comparison to the distribution of radiative fluxes measured along the flame axis.

Transferencia de calor

Radiação

Metano

Combustíveis

Combustão

Radiative heat transfer

Non premixed flames

Diluted fuel

Weighted multi-point source model

Aplicação da análise inversa para determinar os parâmetros do modelo de múltiplas fontes ponderadas para estimar o fluxo de calor de uma chama do tipo jato laminar de metano-ar

Miguel, Rodrigo Brenner

January 2015

A estimativa acurada do fluxo de calor radiativo na região próxima à chama do tipo jato não pré-misturada é necessária para garantir a segurança de pessoas e equipamentos em caso de vazamentos ou processo de descarte na indústria de petróleo e gás. A simulação computacional dos fenômenos físicos envolvidos na transferência de calor e combustão do processo tem alto custo computacional. No presente trabalho é apresentado um estudo para o emprego do modelo de múltiplas fontes ponderadas para a estimativa do fluxo de calor radiativo no campo próximo à chama. O modelo matemático simplificado tem baixo custo computacional e consiste em representar a transferência de calor radiativa por fontes pontuais distribuídas no eixo central da chama. Cada fonte tem um peso proporcional à contribuição de cada região discretizada da chama na transferência de calor por radiação. Para determinar o peso de cada fonte foi utilizada a análise inversa pelo método da Otimização Extrema Generalizada, no qual o fluxo de calor é dado de entrada enquanto o peso de cada fonte é dado de saída. Como dado de entrada foi utilizado o fluxo de calor radiativo medido experimentalmente de um conjunto de 12 chamas, com potência entre 0,139 e 0,554 kW. A análise inversa foi utilizada para recuperar os pesos, e a fração radiante, que geram o fluxo de calor radiativo com maior compatibilidade com os dados experimentais em três abordagens. A primeira abordagem consiste em aplicar a análise inversa em cada chama separadamente, e depois de obtidos os pesos correlaciona-los com a potência da chama. Na aplicação do método em cada chama individualmente, o desvio máximo do resultado do modelo com os dados experimentais é de 5%. Em uma segunda abordagem, foi utilizada a análise inversa para obter diretamente os coeficientes de uma função entre os pesos do modelo e a potência da chama e seu comprimento estimado, o desvio máximo encontrado é de 18,6%. Na terceira abordagem, a análise inversa foi utilizada novamente para encontrar os coeficientes da função que correlaciona a potência da chama com parâmetros do modelo, e neste caso foi utilizado o comprimento experimental da chama para posicionar as fontes pontuais. Para o caso em que sete fontes foram posicionadas a 2,25 vezes o comprimento da chama medido experimentalmente, o desvio máximo observado foi de 8,6% e o desvio médio de 2,9%. / The accurate approximation of radiative heat flux on non-premixed flame in the region adjacent to the flame is required to guarantee the staff and machinery safety on oil and gas industry in cases of fuel leaking or disposal process. The physical phenomena involved on heat transfer and combustion has high computational cost in numerical simulation, in accidental leaking cases it is prohibitive. In the present study it is presented an application of Weighted Multi-Point Sources model to predict the radiative heat flux in the region adjacent to the flame. The simplified mathematical model has low computational cost and simulates the radiative heat transfer by punctual sources placed at the flame axis. Each source has the weight proportional to heat transfer contribution by each flame portion. To set each source's weight, it was used the inverse analysis by the Generalized Extremal Optimization. In inverse analysis the radiative heat fluxes are the input data while the weight of each source is the sought variable. As input data are used the radiative heat fluxes measured from a set of 12 flames, with power between 0.139 and 0.554 kW. The inverse analysis was used to recover the weights, and the fraction of heat radiated, which generate radiative heat fluxes with greater compatibility with the experimental data on three approaches. The first approach is to apply the inverse analysis in each flame separately, obtain the weights and then correlates them with the flame power. In method application for each flame, the maximum deviation between model outcome and experimental data was less than 5%. In a second approach, it was used the inverse analysis to directly obtain the coefficients of a function between the model's parameters and the flame’s power. When used just the flame power as model input parameter to distributes the sources and predict the heat flux, the maximum deviation is 18.6%. In the third approach, the inverse analysis was again used to find the coefficients of the function which correlates the flame power with model parameters, in this case was used the experimental flame length for positioning the point sources. For the case in which seven sources are positioned at 2.25 times the experimental length of the flame, the maximum deviation observed was 8.6% and the mean deviation of 2 9%.

Transferencia de calor

Chamas laminares

Simulação computacional

Inverse analysis

Radiation model

Non pre-mixed flames

Weighted multi-point source model

Aplicação da análise inversa para determinar os parâmetros do modelo de múltiplas fontes ponderadas para estimar o fluxo de calor de uma chama do tipo jato laminar de metano-ar

Miguel, Rodrigo Brenner

January 2015

A estimativa acurada do fluxo de calor radiativo na região próxima à chama do tipo jato não pré-misturada é necessária para garantir a segurança de pessoas e equipamentos em caso de vazamentos ou processo de descarte na indústria de petróleo e gás. A simulação computacional dos fenômenos físicos envolvidos na transferência de calor e combustão do processo tem alto custo computacional. No presente trabalho é apresentado um estudo para o emprego do modelo de múltiplas fontes ponderadas para a estimativa do fluxo de calor radiativo no campo próximo à chama. O modelo matemático simplificado tem baixo custo computacional e consiste em representar a transferência de calor radiativa por fontes pontuais distribuídas no eixo central da chama. Cada fonte tem um peso proporcional à contribuição de cada região discretizada da chama na transferência de calor por radiação. Para determinar o peso de cada fonte foi utilizada a análise inversa pelo método da Otimização Extrema Generalizada, no qual o fluxo de calor é dado de entrada enquanto o peso de cada fonte é dado de saída. Como dado de entrada foi utilizado o fluxo de calor radiativo medido experimentalmente de um conjunto de 12 chamas, com potência entre 0,139 e 0,554 kW. A análise inversa foi utilizada para recuperar os pesos, e a fração radiante, que geram o fluxo de calor radiativo com maior compatibilidade com os dados experimentais em três abordagens. A primeira abordagem consiste em aplicar a análise inversa em cada chama separadamente, e depois de obtidos os pesos correlaciona-los com a potência da chama. Na aplicação do método em cada chama individualmente, o desvio máximo do resultado do modelo com os dados experimentais é de 5%. Em uma segunda abordagem, foi utilizada a análise inversa para obter diretamente os coeficientes de uma função entre os pesos do modelo e a potência da chama e seu comprimento estimado, o desvio máximo encontrado é de 18,6%. Na terceira abordagem, a análise inversa foi utilizada novamente para encontrar os coeficientes da função que correlaciona a potência da chama com parâmetros do modelo, e neste caso foi utilizado o comprimento experimental da chama para posicionar as fontes pontuais. Para o caso em que sete fontes foram posicionadas a 2,25 vezes o comprimento da chama medido experimentalmente, o desvio máximo observado foi de 8,6% e o desvio médio de 2,9%. / The accurate approximation of radiative heat flux on non-premixed flame in the region adjacent to the flame is required to guarantee the staff and machinery safety on oil and gas industry in cases of fuel leaking or disposal process. The physical phenomena involved on heat transfer and combustion has high computational cost in numerical simulation, in accidental leaking cases it is prohibitive. In the present study it is presented an application of Weighted Multi-Point Sources model to predict the radiative heat flux in the region adjacent to the flame. The simplified mathematical model has low computational cost and simulates the radiative heat transfer by punctual sources placed at the flame axis. Each source has the weight proportional to heat transfer contribution by each flame portion. To set each source's weight, it was used the inverse analysis by the Generalized Extremal Optimization. In inverse analysis the radiative heat fluxes are the input data while the weight of each source is the sought variable. As input data are used the radiative heat fluxes measured from a set of 12 flames, with power between 0.139 and 0.554 kW. The inverse analysis was used to recover the weights, and the fraction of heat radiated, which generate radiative heat fluxes with greater compatibility with the experimental data on three approaches. The first approach is to apply the inverse analysis in each flame separately, obtain the weights and then correlates them with the flame power. In method application for each flame, the maximum deviation between model outcome and experimental data was less than 5%. In a second approach, it was used the inverse analysis to directly obtain the coefficients of a function between the model's parameters and the flame’s power. When used just the flame power as model input parameter to distributes the sources and predict the heat flux, the maximum deviation is 18.6%. In the third approach, the inverse analysis was again used to find the coefficients of the function which correlates the flame power with model parameters, in this case was used the experimental flame length for positioning the point sources. For the case in which seven sources are positioned at 2.25 times the experimental length of the flame, the maximum deviation observed was 8.6% and the mean deviation of 2 9%.

Transferencia de calor

Chamas laminares

Simulação computacional

Inverse analysis

Radiation model

Non pre-mixed flames

Weighted multi-point source model