Miguel García scite author profile

Forest and rural fires are one of the main causes of environmental degradation in Mediterranean countries. Existing fire detection systems only focus on detection, but not on the verification of the fire. However, almost all of them are just simulations, and very few implementations can be found. Besides, the systems in the literature lack scalability. In this paper we show all the steps followed to perform the design, research and development of a wireless multisensor network which mixes sensors with IP cameras in a wireless network in order to detect and verify fire in rural and forest areas of Spain. We have studied how many cameras, sensors and access points are needed to cover a rural or forest area, and the scalability of the system. We have developed a multisensor and when it detects a fire, it sends a sensor alarm through the wireless network to a central server. The central server selects the closest wireless cameras to the multisensor, based on a software application, which are rotated to the sensor that raised the alarm, and sends them a message in order to receive real-time images from the zone. The camera lets the fire fighters corroborate the existence of a fire and avoid false alarms. In this paper, we show the test performance given by a test bench formed by four wireless IP cameras in several situations and the energy consumed when they are transmitting. Moreover, we study the energy consumed by each device when the system is set up. The wireless sensor network could be connected to Internet through a gateway and the images of the cameras could be seen from any part of the world.

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Multimedia group and inter-stream synchronization techniques: A comparative study

Boronat

Lloret

García

2009

Information Systems

107

108

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Power Saving and Energy Optimization Techniques for Wireless Sensor Neworks (Invited Paper)

Sendra¹,

Lloret²,

García³

et al. 2011

JCM

141

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Abstract-Wireless sensor networks have become increasingly popular due to their wide range of applications. Energy consumption is one of the biggest constraints of the wireless sensor node and this limitation combined with a typical deployment of large number of nodes have added many challenges to the design and management of wireless sensor networks. They are typically used for remote environment monitoring in areas where providing electrical power is difficult. Therefore, the devices need to be powered by batteries and alternative energy sources. Because battery energy is limited, the use of different techniques for energy saving is one of the hottest topics in WSNs. In this work, we present a survey of power saving and energy optimization techniques for wireless sensor networks, which enhances the ones in existence and introduces the reader to the most well known available methods that can be used to save energy. They are analyzed from several points of view: Device hardware, transmission, MAC and routing protocols. Index Terms-Power-saving strategies, energy consumption, energy management, network communication protocols, wireless sensor networks.

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A Cluster-Based Architecture to Structure the Topology of Parallel Wireless Sensor Networks

Lloret

García

Bri

et al. 2009

Sensors

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A wireless sensor network is a self-configuring network of mobile nodes connected by wireless links where the nodes have limited capacity and energy. In many cases, the application environment requires the design of an exclusive network topology for a particular case. Cluster-based network developments and proposals in existence have been designed to build a network for just one type of node, where all nodes can communicate with any other nodes in their coverage area. Let us suppose a set of clusters of sensor nodes where each cluster is formed by different types of nodes (e.g., they could be classified by the sensed parameter using different transmitting interfaces, by the node profile or by the type of device: laptops, PDAs, sensor etc.) and exclusive networks, as virtual networks, are needed with the same type of sensed data, or the same type of devices, or even the same type of profiles. In this paper, we propose an algorithm that is able to structure the topology of different wireless sensor networks to coexist in the same environment. It allows control and management of the topology of each network. The architecture operation and the protocol messages will be described. Measurements from a real test-bench will show that the designed protocol has low bandwidth consumption and also demonstrates the viability and the scalability of the proposed architecture. Our ccluster-based algorithm is compared with other algorithms reported in the literature in terms of architecture and protocol measurements.

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A Hybrid Stochastic Approach for Self-Location of Wireless Sensors in Indoor Environments

Lloret

Tomás

García

et al. 2009

Sensors

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Indoor location systems, especially those using wireless sensor networks, are used in many application areas. While the need for these systems is widely proven, there is a clear lack of accuracy. Many of the implemented applications have high errors in their location estimation because of the issues arising in the indoor environment. Two different approaches had been proposed using WLAN location systems: on the one hand, the so-called deductive methods take into account the physical properties of signal propagation. These systems require a propagation model, an environment map, and the position of the radio-stations. On the other hand, the so-called inductive methods require a previous training phase where the system learns the received signal strength (RSS) in each location. This phase can be very time consuming. This paper proposes a new stochastic approach which is based on a combination of deductive and inductive methods whereby wireless sensors could determine their positions using WLAN technology inside a floor of a building. Our goal is to reduce the training phase in an indoor environment, but, without an loss of precision. Finally, we compare the measurements taken using our proposed method in a real environment with the measurements taken by other developed systems. Comparisons between the proposed system and other hybrid methods are also provided.

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Group-based underwater wireless sensor network for marine fish farms

Lloret

Sendra

García

et al. 2011

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The amount of uneaten feed and fecal waste generated by the fish in marine fish farms causes the damage of the fauna and flora, and it also reduces the economic benefits because the wastage of the uneaten food. In this paper, we propose an underwater group-based sensor network in order to quantify accurately the amount of pollution deposited on the seabed. First, an analytical model let us know the best location to place the sensor nodes. Our group-based wireless sensor network (WSN) proposal could also determine the amount of food that is wasted while it measures the amount of deposits generated. We describe the mobility of the nodes and how operates the group-based protocol and we show several simulations in order to view the load traffic and to verify the correct operation of the WSN.

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GBP-WAHSN: A Group-Based Protocol for Large Wireless Ad Hoc and Sensor Networks

Lloret

García

Tomás

et al. 2008

J. Comput. Sci. Technol.

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Lloret J, Garcia M, Tomás J et al. GBP-WAHSN: A group-based protocol for large wireless ad hoc and sensor networks.Abstract Grouping nodes gives better performance to the whole network by diminishing the average network delay and avoiding unnecessary message forwarding and additional overhead. Many routing protocols for ad-hoc and sensor networks have been designed but none of them are based on groups. In this paper, we will start defining group-based topologies, and then we will show how some wireless ad hoc sensor networks (WAHSN) routing protocols perform when the nodes are arranged in groups. In our proposal connections between groups are established as a function of the proximity of the nodes and the neighbor's available capacity (based on the node's energy). We describe the architecture proposal, the messages that are needed for the proper operation and its mathematical description. We have also simulated how much time is needed to propagate information between groups. Finally, we will show a comparison with other architectures.

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Monitoring and control sensor system for fish feeding in marine fish farms

García

Sendra

Lloret

et al. 2011

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Miguel García

A Wireless Sensor Network Deployment for Rural and Forest Fire Detection and Verification

Multimedia group and inter-stream synchronization techniques: A comparative study

Power Saving and Energy Optimization Techniques for Wireless Sensor Neworks (Invited Paper)

A Cluster-Based Architecture to Structure the Topology of Parallel Wireless Sensor Networks

A Hybrid Stochastic Approach for Self-Location of Wireless Sensors in Indoor Environments

Group-based underwater wireless sensor network for marine fish farms

GBP-WAHSN: A Group-Based Protocol for Large Wireless Ad Hoc and Sensor Networks

Monitoring and control sensor system for fish feeding in marine fish farms

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