235 research outputs found
Using a prioritized medium access control protocol for incrementally obtaining an interpolation of sensor readings
This paper addresses sensor network applications which need to obtain an accurate image of physical phenomena and do so with a high sampling rate in both time and space. We present a fast and scalable approach for obtaining an approximate representation of all sensor readings at high sampling rate for quickly reacting to critical events in a physical environment. This approach is an improvement on previous work in that after the new approach has undergone a startup phase then the new approach can use a very small sampling period
Scalable and efficient data processing in networked control systems
Network control systems (NCSs) are spatially distributed systems in which the communication between sensors,
actuators and controllers occurs through a shared band-limited digital communication network. However, the use of a
shared communication network, in contrast to using several dedicated independent connections, introduces new
challenges which are even more acute in large scale and dense networked control systems. In this paper we investigate a
recently introduced technique of gathering information from a dense sensor network to be used in networked control
applications. Obtaining efficiently an approximate interpolation of the sensed data is exploited as offering a good tradeoff
between accuracy in the measurement of the input signals and the delay to the actuation. These are important aspects
to take into account for the quality of control. We introduce a variation to the state-of-the-art algorithms which we
prove to perform relatively better because it takes into account the changes over time of the input signal within the
process of obtaining an approximate interpolation
Data gathering approach in dense sensor networks
Sensor/actuator networks promised to extend automated monitoring and control into industrial processes. Avionic
system is one of the prominent technologies that can highly gain from dense sensor/actuator deployments. An
aircraft with smart sensing skin would fulfill the vision of affordability and environmental friendliness properties by
reducing the fuel consumption. Achieving these properties is possible by providing an approximate representation of
the air flow across the body of the aircraft and suppressing the detected aerodynamic drags. To the best of our
knowledge, getting an accurate representation of the physical entity is one of the most significant challenges that
still exists with dense sensor/actuator network. This paper offers an efficient way to acquire sensor readings from
very large sensor/actuator network that are located in a small area (dense network). It presents LIA algorithm, a
Linear Interpolation Algorithm that provides two important contributions. First, it demonstrates the effectiveness of
employing a transformation matrix to mimic the environmental behavior. Second, it renders a smart solution for
updating the previously defined matrix through a procedure called learning phase. Simulation results reveal that the
average relative error in LIA algorithm can be reduced by as much as 60% by exploiting transformation matrix
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e-mission: an open source, extensible platform for human mobility systems
Transportation is the single largest source of carbon emissions in the US. Decarbonizing it is challenging because it depends on individual behaviors, which in turn, depend on local land use planning. The interdisciplinary field of Computational Mobility, focusing on collecting, analysing and influencing human travel behavior, can frame solutions to this challenge.Innovation flows in interdisciplinary fields are bi-directional. The flow to the domain is focused on building a strong foundation for methodological improvements. As the improvements are deployed, they result in use-inspired computational research. This temporal dependency results in our initial focus on the modularity, accuracy and reproducibility of e-mission, an extensible platform for instrumenting human mobility. This open source platform has a modular architecture that supports power efficient duty cycling using virtual sensors, a read-only data model and a pipeline with novel algorithm adaptations for smartphone sensing.We also perform the first empirical evaluations of smartphone-based platforms in this domain. The architectural evaluation is based on three real world deployments: a classic travel diary, a crowdsourcing initiative, and a behavioral study. The accuracy evaluation is based on an novel procedure that uses artificial trips and multiple parallel phones to mitigate concerns over privacy, context sensitive power consumption and inherent sensing error. Data collected from three artifical timelines was used to evaluate the trajectory, segmentation and classification accuracies vs. power for various configurations.On computational side, challenges derived from the deployments can contribute to ongoing CS research in privacy, trustworthiness, incentivization and decision making. On the mobility side, this enables methodological innovations such as Agile Urban Planning for prototyping infrastructure changes
Behaviour Based Simulated Low-Cost Multi-Robot Exploration
Institute of Perception, Action and BehaviourThe use of multiple robots for exploration holds the promise of improved performance
over single robot systems. To exploit effectively the advantage of having several robots,
the robots must be co-ordinated which requires communication. Previous research
relies on a fixed communication network topology, a single lead explorer, and flat
communication. This thesis presents a novel architecture to keep a group of robots
as a single connected and adaptable communication network to explore and map the
environment. This architecture, BERODE (BEhavioural ROle DEcentralized), aims to
be robust, efficient and scalable to large numbers of robots. The network is adaptable,
the number of explorers variable, and communications hierarchical (local/global).
The network is kept connected by an MST (Minimum Spanning Tree) control network,
a subnetwork containing only the minimum necessary links to be a fully connected
network. As the robots explore, the MST control network is updated either
partially (local network) or globally to improve signal quality. The local network for
a robot is formed by the robots that are within a certain retransmission distance in the
MST control network. BERODE implements a hierarchic approach to distributing information
to improve scalability with respect to the number of robots. The robots share
information at two levels: frequently within their local network and less frequently to
the entire robot network.
The robots coordinate by assuming behaviours depending on their connections in
the MST control network. The behavioural roles balance between the tasks of exploration
and network maintenance where the Explorer role is the most focused on the
exploration task. This improves efficiency by allowing varying number of robots to
take the Explorer role depending on circumstances. The roles generate reactive plans
that ensure the connectivity of the network. These plans are based on the imposition
of heterogeneous virtual spring forces.
Our simulations show that BERODE is more efficient, scalable and robust with
respect to communications than the previous approaches that rely on fixed control networks.
BERODE is more efficient because it required less time to build a complete
map of the environment than the fixed control networks. BERODE is more scalable
because it keeps the robots as a single connected network for more time than the fixed
control networks. BERODE is more robust because it has a better success rate at finishing
the exploration
Proceedings of the Workshop on Change of Representation and Problem Reformulation
The proceedings of the third Workshop on Change of representation and Problem Reformulation is presented. In contrast to the first two workshops, this workshop was focused on analytic or knowledge-based approaches, as opposed to statistical or empirical approaches called 'constructive induction'. The organizing committee believes that there is a potential for combining analytic and inductive approaches at a future date. However, it became apparent at the previous two workshops that the communities pursuing these different approaches are currently interested in largely non-overlapping issues. The constructive induction community has been holding its own workshops, principally in conjunction with the machine learning conference. While this workshop is more focused on analytic approaches, the organizing committee has made an effort to include more application domains. We have greatly expanded from the origins in the machine learning community. Participants in this workshop come from the full spectrum of AI application domains including planning, qualitative physics, software engineering, knowledge representation, and machine learning
Intelligent Sensor Networks
In the last decade, wireless or wired sensor networks have attracted much attention. However, most designs target general sensor network issues including protocol stack (routing, MAC, etc.) and security issues. This book focuses on the close integration of sensing, networking, and smart signal processing via machine learning. Based on their world-class research, the authors present the fundamentals of intelligent sensor networks. They cover sensing and sampling, distributed signal processing, and intelligent signal learning. In addition, they present cutting-edge research results from leading experts
State-of-the-Art Sensors Technology in Spain 2015: Volume 1
This book provides a comprehensive overview of state-of-the-art sensors technology in specific leading areas. Industrial researchers, engineers and professionals can find information on the most advanced technologies and developments, together with data processing. Further research covers specific devices and technologies that capture and distribute data to be processed by applying dedicated techniques or procedures, which is where sensors play the most important role. The book provides insights and solutions for different problems covering a broad spectrum of possibilities, thanks to a set of applications and solutions based on sensory technologies. Topics include: • Signal analysis for spectral power • 3D precise measurements • Electromagnetic propagation • Drugs detection • e-health environments based on social sensor networks • Robots in wireless environments, navigation, teleoperation, object grasping, demining • Wireless sensor networks • Industrial IoT • Insights in smart cities • Voice recognition • FPGA interfaces • Flight mill device for measurements on insects • Optical systems: UV, LEDs, lasers, fiber optics • Machine vision • Power dissipation • Liquid level in fuel tanks • Parabolic solar tracker • Force sensors • Control for a twin roto
Smart Wireless Sensor Networks
The recent development of communication and sensor technology results in the growth of a new attractive and challenging area - wireless sensor networks (WSNs). A wireless sensor network which consists of a large number of sensor nodes is deployed in environmental fields to serve various applications. Facilitated with the ability of wireless communication and intelligent computation, these nodes become smart sensors which do not only perceive ambient physical parameters but also be able to process information, cooperate with each other and self-organize into the network. These new features assist the sensor nodes as well as the network to operate more efficiently in terms of both data acquisition and energy consumption. Special purposes of the applications require design and operation of WSNs different from conventional networks such as the internet. The network design must take into account of the objectives of specific applications. The nature of deployed environment must be considered. The limited of sensor nodes� resources such as memory, computational ability, communication bandwidth and energy source are the challenges in network design. A smart wireless sensor network must be able to deal with these constraints as well as to guarantee the connectivity, coverage, reliability and security of network's operation for a maximized lifetime. This book discusses various aspects of designing such smart wireless sensor networks. Main topics includes: design methodologies, network protocols and algorithms, quality of service management, coverage optimization, time synchronization and security techniques for sensor networks
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