Musical collaboration over telecommunication networks has marvellous possibilities when it comes ... more Musical collaboration over telecommunication networks has marvellous possibilities when it comes to musical education, practise and performance. The deployment and use of high-capacity digital networks makes it possible to obtain end-to-end audio and video latency of 5-20 milliseconds, which is similar to the audio time delay typically experienced between musicians on a stage. The main challenge of reaching this latency
Internet, Multimedia Systems and Applications, Aug 21, 2008
ABSTRACT The increase in Internet streaming media deployment and consumption has created a networ... more ABSTRACT The increase in Internet streaming media deployment and consumption has created a network stability challenge. The reason is that in overload situations, such sources continue submitting packets at an unmodified rate. The elastic applications using the TCP protocol will back-off and receive a throughput below their fair rate. The DCCP/TFRC congestion control mechanism is one possible remedy. However, due to its steady packet rate requirement, the end-to-end delay constraints of conversational real-time media like VoIP and videoconferencing can be ruined by the TFRC transmit buffer and router queue backlog. In this paper the P-AQM alternative is presented. P-AQM routers provide more accurate media traffic load information than RED routers, to ensure high link utilization yet low queue backlog. The paper gives the theoretical stability criteria of P-AQM with explicit congestion feedback (ECF) and explicit rate feedback (ERF). Elaborative ns-2 simulations compare scenarios with a mix of MPEG-4 VBR video and TCP traffic, demonstrating P-AQM robustness and performance. The ECF and ERF max-min fairness is explained and compared to TFRC using both CBR and VBR traffic in a GFC-2 network scenario.
... choice: when Lisa had found the wedding ring (Scene 16.e) and put it on her finger, Jeff look... more ... choice: when Lisa had found the wedding ring (Scene 16.e) and put it on her finger, Jeff looks ... of being there, because the only way we could have looked around had been to pan our head and eyes ... This is ten times faster than a Java implementation done by another group [15 ...
... 2008:74. Year of publ.: 2008. URI: urn:nbn:no:ntnu:diva-2092. Permanent link: http://urn.kb.s... more ... 2008:74. Year of publ.: 2008. URI: urn:nbn:no:ntnu:diva-2092. Permanent link: http://urn.kb.se/ resolve?urn=urn:nbn:no:ntnu:diva-2092. ... TCP has built-in congestion control mechanism (eg Tahoe or Reno) that reacts on packet drops or packet ECN tags performed by the router. ...
For a distributed system like the power grid, the requirements on fast and reliable communication... more For a distributed system like the power grid, the requirements on fast and reliable communications are increasing due to build out of intermittent renewable energy sources, reduced inertia in the power production and high power loads. Mobile networks have the potential of reducing investment and maintenance cost for smart grids since no dedicated communication network is needed. However, most deployments still rely on other communication technologies. In this paper we investigate the challenges of using the existing 4G mobile networks based on measurement data and notice that the average performance is typically at an acceptable level, but the latencies of higher reliability percentiles are very high. This makes control applications with high reliability requirements problematic over unmanaged networks, such as the Internet or public mobile networks. Mobile networks are complex systems with large number of mechanisms that may be used to improve the reliability and latency of all the steps of the end-to-end communication path. In critical events, such as power outage, a storm of alarms from different sensors will be triggered. In this paper we analyze how short response times can be provided to smart grid devices also at such events. This shows how new features have made mobile networks more suitable for smart grid communication in the evolution from the 4th to the 5th generation of network technology.
ABSTRACT While underwater acoustic sensor networks (UWSN) are still considered to be in their dev... more ABSTRACT While underwater acoustic sensor networks (UWSN) are still considered to be in their development phase, professional users are starting to understand their future potential. For example, large areas encircling offshore oil installations need to be environmentally supervised. UWSNs consisting of a large number of sensor nodes can present a viable solution to this challenge. One way to build such networks is to divide the large area into multiple small clusters of sensor nodes, not very different from cellular mobile networks. Given a certain sensor node density, the question is then to determine the cluster sizes that provides optimum capacity or minimum number of high-cost sink nodes. This paper contains such a scalability analysis for underwater sensor networks, and presents a set of analytical expressions giving the relationship between underwater acoustic communication ranges and obtainable sink and sensor node densities in clustered underwater acoustic networks. Two propositions are presented that states a linear relation between cell capacities and MAC efficiencies, and how this capacity is reduced by inter-cell interference in a hexagonal cell topology. The propositions are validated using simulation experiments in WOSS/ns-miracle.
ABSTRACT In order to meet the demand for increased capacity in wireless networks, incorporating f... more ABSTRACT In order to meet the demand for increased capacity in wireless networks, incorporating femtocells within the coverage of macrocells constitutes one of the strategies that currently receives most attention from both industry and academia. Femtocells may either be part of a HetNet as standardised within 3GPP, or constitute the secondary system in cognitive networks. Power control is a useful mechanism to allow efficient communications within both femto- and macrocells, but should be designed differently in the two cases. The performance of two different power control algorithms suitable for 3GPP femtocells and cognitive femtocells, respectively, is considered in this publication.
ABSTRACT OSS is a real-time supervising concept for marine operations and management based on dat... more ABSTRACT OSS is a real-time supervising concept for marine operations and management based on data assimilation and integrated measurements and models. OSS is composed of an underwater sensor network, communication links to computers running ocean models, computer ocean models and a data assimilation tool which adapts the model to measurement data from the sensor network. The paper describes the overall system and how the sensor measurements are updating the model. The inclusion of electromagnetic communication in the sensor network is discussed, illustrating the link sea surface range and performance in terms of signal level variations. Results from real measurements at the coast of Norway show the improved predictions of sea current behaviour. Besides from improving the quality of predictions, modelling is used for optimum deployment of the network nodes, representing a major economical benefit of the OSS approach compared to a more ad hoc deployment of the nodes.
The Internet is today a world wide packet switching arena constituting enormous possibilities of ... more The Internet is today a world wide packet switching arena constituting enormous possibilities of new services and business creation. E.g., there is a clear tendency that more and more real-time services are making the jump from dedicated circuit-switched and broadcasting networks into packet switching. Examples are telephony, videoconferencing, and television. The Internet today is thus hosting a large set of different services, including the delay tolerant Web-surfing traffic, but also the non-delay tolerant real-time services. An additional challenge with most real-time traffic is that its traffic pattern do not adapt to the varying traffic load as Web-traffic do. Still, these new services work well, as long as the packet switching capacity is sufficient. Problems arise when the growth of real-time service usage is larger than the capacity increase. During peak hours, users will then start to experience media services fall-out and excessive communication delay.The reason is that the Internet as we know it today was not built to handle such services at all. In motor traffic, as a comparison, queues build up when the traffic load is larger than the road and crossover capacity. The Internet behaves in a similar fashion: information is sent in packets that can be compared to cars. If too many packets are heading the same direction, queues of packets build up in the Internet routers, causing extra delay during such peak hours. In one way the Internet is more fearful than motor traffic: if queues get too long, new arriving packets are simply dropped, i.e. they just vanish. Luckily, there is no direct parallel to this phenomenon in the motor traffic comparison realm! To assist the queuing problems in motor traffic, special traffic lanes can be defined to allow e.g. only buses, taxis, and cars where the driver has at least one passenger, to drive in that lane.Thus, these road-users will experience less delay in peak hours than the rest of the population. The Internet is tried “healed” with some comparable means. E.g. with the use of IntServ or DiffServ Quality of Service, packets belonging to high priority applications are treated in a preferential fashion. But what happens if too many applications start to use these “special-lanes”? What if the total capacity is over-loaded over a significant time period? The answer to fix the problem is simple: the aggregate traffic generation must slow down! In motor traffic, this means that each car carries more people (i.e. fewer cars in total), or, equivalently, that big cars are exchanged by smaller cars, thus producing smaller queues. In the multimedia real-time packet switching realm, the equivalent solution is that the same content must be compressed more efficiently, thus producing fewer and/or smaller packets.This thesis proposes a solution for live interactive real-time streaming media where a tight interaction between the media sources and the network is very essential. A novel router architecture, “P-AQM”, for packet switched networks is its core component. The primary P-AQM design objective is native support for rate adaptive real-time multimedia flows, addressing low queuing delay and low packet losses even at high traffic load to assist conversational media flows. The second objective is bandwidth fairness among the media flows, but also fairness to elastic (TCP) flows. These two design objectives are achieved due to the aforementioned interaction between the network routers and the traffic sources: the routers signal the traffic congestion level, while the media and TCP sources apply rate adaption. TCP has built-in congestion control mechanism (e.g. Tahoe or Reno) that reacts on packet drops or packet ECN tags performed by the router. Real-time media using the UDP protocol has no standardized congestion control mechanism. While DCCP/TFRC has become a compelling IETF standard during the last years, the work of this thesis has chosen another solution for media rate control that bypasses the TFRC performance. Using the traffic congestion level signals from P-AQM routers, the media rate control can be done much more precise, react faster to traffic load changes, and obtain intra-flow global max-min fairness. The cost of these improvements is gradual deployment of the new P-AQM packet switching routers, and some added signaling traffic.The P-AQM design is following classical control theory principles, and has been developed and improved using a combination of analytical and simulation tools. As a side effect to the need for true decodable rate adaptive video traffic, a simulation framework and tool-set, “Evalvid-RA”, was developed to generate such traffic. Evalvid-RA can also assist other researchers in improving their own work, e.g. applying rate adaptive video codecs over the DCCP/TFRC protocol.
2020 6th IEEE International Energy Conference (ENERGYCon), 2020
For a distributed system like the power grid, the requirements on fast and reliable communication... more For a distributed system like the power grid, the requirements on fast and reliable communications are increasing due to build out of intermittent renewable energy sources, reduced inertia in the power production and high power loads. Mobile networks have the potential of reducing investment and maintenance cost for smart grids since no dedicated communication network is needed. However, most deployments still rely on other communication technologies. In this paper we investigate the challenges of using the existing 4G mobile networks based on measurement data and notice that the average performance is typically at an acceptable level, but the latencies of higher reliability percentiles are very high. This makes control applications with high reliability requirements problematic over unmanaged networks, such as the Internet or public mobile networks. Mobile networks are complex systems with large number of mechanisms that may be used to improve the reliability and latency of all the steps of the end-to-end communication path. In critical events, such as power outage, a storm of alarms from different sensors will be triggered. In this paper we analyze how short response times can be provided to smart grid devices also at such events. This shows how new features have made mobile networks more suitable for smart grid communication in the evolution from the 4th to the 5th generation of network technology.
Musical collaboration over telecommunication networks has marvellous possibilities when it comes ... more Musical collaboration over telecommunication networks has marvellous possibilities when it comes to musical education, practise and performance. The deployment and use of high-capacity digital networks makes it possible to obtain end-to-end audio and video latency of 5-20 milliseconds, which is similar to the audio time delay typically experienced between musicians on a stage. The main challenge of reaching this latency
Internet, Multimedia Systems and Applications, Aug 21, 2008
ABSTRACT The increase in Internet streaming media deployment and consumption has created a networ... more ABSTRACT The increase in Internet streaming media deployment and consumption has created a network stability challenge. The reason is that in overload situations, such sources continue submitting packets at an unmodified rate. The elastic applications using the TCP protocol will back-off and receive a throughput below their fair rate. The DCCP/TFRC congestion control mechanism is one possible remedy. However, due to its steady packet rate requirement, the end-to-end delay constraints of conversational real-time media like VoIP and videoconferencing can be ruined by the TFRC transmit buffer and router queue backlog. In this paper the P-AQM alternative is presented. P-AQM routers provide more accurate media traffic load information than RED routers, to ensure high link utilization yet low queue backlog. The paper gives the theoretical stability criteria of P-AQM with explicit congestion feedback (ECF) and explicit rate feedback (ERF). Elaborative ns-2 simulations compare scenarios with a mix of MPEG-4 VBR video and TCP traffic, demonstrating P-AQM robustness and performance. The ECF and ERF max-min fairness is explained and compared to TFRC using both CBR and VBR traffic in a GFC-2 network scenario.
... choice: when Lisa had found the wedding ring (Scene 16.e) and put it on her finger, Jeff look... more ... choice: when Lisa had found the wedding ring (Scene 16.e) and put it on her finger, Jeff looks ... of being there, because the only way we could have looked around had been to pan our head and eyes ... This is ten times faster than a Java implementation done by another group [15 ...
... 2008:74. Year of publ.: 2008. URI: urn:nbn:no:ntnu:diva-2092. Permanent link: http://urn.kb.s... more ... 2008:74. Year of publ.: 2008. URI: urn:nbn:no:ntnu:diva-2092. Permanent link: http://urn.kb.se/ resolve?urn=urn:nbn:no:ntnu:diva-2092. ... TCP has built-in congestion control mechanism (eg Tahoe or Reno) that reacts on packet drops or packet ECN tags performed by the router. ...
For a distributed system like the power grid, the requirements on fast and reliable communication... more For a distributed system like the power grid, the requirements on fast and reliable communications are increasing due to build out of intermittent renewable energy sources, reduced inertia in the power production and high power loads. Mobile networks have the potential of reducing investment and maintenance cost for smart grids since no dedicated communication network is needed. However, most deployments still rely on other communication technologies. In this paper we investigate the challenges of using the existing 4G mobile networks based on measurement data and notice that the average performance is typically at an acceptable level, but the latencies of higher reliability percentiles are very high. This makes control applications with high reliability requirements problematic over unmanaged networks, such as the Internet or public mobile networks. Mobile networks are complex systems with large number of mechanisms that may be used to improve the reliability and latency of all the steps of the end-to-end communication path. In critical events, such as power outage, a storm of alarms from different sensors will be triggered. In this paper we analyze how short response times can be provided to smart grid devices also at such events. This shows how new features have made mobile networks more suitable for smart grid communication in the evolution from the 4th to the 5th generation of network technology.
ABSTRACT While underwater acoustic sensor networks (UWSN) are still considered to be in their dev... more ABSTRACT While underwater acoustic sensor networks (UWSN) are still considered to be in their development phase, professional users are starting to understand their future potential. For example, large areas encircling offshore oil installations need to be environmentally supervised. UWSNs consisting of a large number of sensor nodes can present a viable solution to this challenge. One way to build such networks is to divide the large area into multiple small clusters of sensor nodes, not very different from cellular mobile networks. Given a certain sensor node density, the question is then to determine the cluster sizes that provides optimum capacity or minimum number of high-cost sink nodes. This paper contains such a scalability analysis for underwater sensor networks, and presents a set of analytical expressions giving the relationship between underwater acoustic communication ranges and obtainable sink and sensor node densities in clustered underwater acoustic networks. Two propositions are presented that states a linear relation between cell capacities and MAC efficiencies, and how this capacity is reduced by inter-cell interference in a hexagonal cell topology. The propositions are validated using simulation experiments in WOSS/ns-miracle.
ABSTRACT In order to meet the demand for increased capacity in wireless networks, incorporating f... more ABSTRACT In order to meet the demand for increased capacity in wireless networks, incorporating femtocells within the coverage of macrocells constitutes one of the strategies that currently receives most attention from both industry and academia. Femtocells may either be part of a HetNet as standardised within 3GPP, or constitute the secondary system in cognitive networks. Power control is a useful mechanism to allow efficient communications within both femto- and macrocells, but should be designed differently in the two cases. The performance of two different power control algorithms suitable for 3GPP femtocells and cognitive femtocells, respectively, is considered in this publication.
ABSTRACT OSS is a real-time supervising concept for marine operations and management based on dat... more ABSTRACT OSS is a real-time supervising concept for marine operations and management based on data assimilation and integrated measurements and models. OSS is composed of an underwater sensor network, communication links to computers running ocean models, computer ocean models and a data assimilation tool which adapts the model to measurement data from the sensor network. The paper describes the overall system and how the sensor measurements are updating the model. The inclusion of electromagnetic communication in the sensor network is discussed, illustrating the link sea surface range and performance in terms of signal level variations. Results from real measurements at the coast of Norway show the improved predictions of sea current behaviour. Besides from improving the quality of predictions, modelling is used for optimum deployment of the network nodes, representing a major economical benefit of the OSS approach compared to a more ad hoc deployment of the nodes.
The Internet is today a world wide packet switching arena constituting enormous possibilities of ... more The Internet is today a world wide packet switching arena constituting enormous possibilities of new services and business creation. E.g., there is a clear tendency that more and more real-time services are making the jump from dedicated circuit-switched and broadcasting networks into packet switching. Examples are telephony, videoconferencing, and television. The Internet today is thus hosting a large set of different services, including the delay tolerant Web-surfing traffic, but also the non-delay tolerant real-time services. An additional challenge with most real-time traffic is that its traffic pattern do not adapt to the varying traffic load as Web-traffic do. Still, these new services work well, as long as the packet switching capacity is sufficient. Problems arise when the growth of real-time service usage is larger than the capacity increase. During peak hours, users will then start to experience media services fall-out and excessive communication delay.The reason is that the Internet as we know it today was not built to handle such services at all. In motor traffic, as a comparison, queues build up when the traffic load is larger than the road and crossover capacity. The Internet behaves in a similar fashion: information is sent in packets that can be compared to cars. If too many packets are heading the same direction, queues of packets build up in the Internet routers, causing extra delay during such peak hours. In one way the Internet is more fearful than motor traffic: if queues get too long, new arriving packets are simply dropped, i.e. they just vanish. Luckily, there is no direct parallel to this phenomenon in the motor traffic comparison realm! To assist the queuing problems in motor traffic, special traffic lanes can be defined to allow e.g. only buses, taxis, and cars where the driver has at least one passenger, to drive in that lane.Thus, these road-users will experience less delay in peak hours than the rest of the population. The Internet is tried “healed” with some comparable means. E.g. with the use of IntServ or DiffServ Quality of Service, packets belonging to high priority applications are treated in a preferential fashion. But what happens if too many applications start to use these “special-lanes”? What if the total capacity is over-loaded over a significant time period? The answer to fix the problem is simple: the aggregate traffic generation must slow down! In motor traffic, this means that each car carries more people (i.e. fewer cars in total), or, equivalently, that big cars are exchanged by smaller cars, thus producing smaller queues. In the multimedia real-time packet switching realm, the equivalent solution is that the same content must be compressed more efficiently, thus producing fewer and/or smaller packets.This thesis proposes a solution for live interactive real-time streaming media where a tight interaction between the media sources and the network is very essential. A novel router architecture, “P-AQM”, for packet switched networks is its core component. The primary P-AQM design objective is native support for rate adaptive real-time multimedia flows, addressing low queuing delay and low packet losses even at high traffic load to assist conversational media flows. The second objective is bandwidth fairness among the media flows, but also fairness to elastic (TCP) flows. These two design objectives are achieved due to the aforementioned interaction between the network routers and the traffic sources: the routers signal the traffic congestion level, while the media and TCP sources apply rate adaption. TCP has built-in congestion control mechanism (e.g. Tahoe or Reno) that reacts on packet drops or packet ECN tags performed by the router. Real-time media using the UDP protocol has no standardized congestion control mechanism. While DCCP/TFRC has become a compelling IETF standard during the last years, the work of this thesis has chosen another solution for media rate control that bypasses the TFRC performance. Using the traffic congestion level signals from P-AQM routers, the media rate control can be done much more precise, react faster to traffic load changes, and obtain intra-flow global max-min fairness. The cost of these improvements is gradual deployment of the new P-AQM packet switching routers, and some added signaling traffic.The P-AQM design is following classical control theory principles, and has been developed and improved using a combination of analytical and simulation tools. As a side effect to the need for true decodable rate adaptive video traffic, a simulation framework and tool-set, “Evalvid-RA”, was developed to generate such traffic. Evalvid-RA can also assist other researchers in improving their own work, e.g. applying rate adaptive video codecs over the DCCP/TFRC protocol.
2020 6th IEEE International Energy Conference (ENERGYCon), 2020
For a distributed system like the power grid, the requirements on fast and reliable communication... more For a distributed system like the power grid, the requirements on fast and reliable communications are increasing due to build out of intermittent renewable energy sources, reduced inertia in the power production and high power loads. Mobile networks have the potential of reducing investment and maintenance cost for smart grids since no dedicated communication network is needed. However, most deployments still rely on other communication technologies. In this paper we investigate the challenges of using the existing 4G mobile networks based on measurement data and notice that the average performance is typically at an acceptable level, but the latencies of higher reliability percentiles are very high. This makes control applications with high reliability requirements problematic over unmanaged networks, such as the Internet or public mobile networks. Mobile networks are complex systems with large number of mechanisms that may be used to improve the reliability and latency of all the steps of the end-to-end communication path. In critical events, such as power outage, a storm of alarms from different sensors will be triggered. In this paper we analyze how short response times can be provided to smart grid devices also at such events. This shows how new features have made mobile networks more suitable for smart grid communication in the evolution from the 4th to the 5th generation of network technology.
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