Hybrid Path Planning for Efficient Data Collection in UAV-Aided WSNs for Emergency Applications

Poudel, Sabitri; Moh, Sangman

doi:10.3390/s21082839

Cited by 36 publications

(21 citation statements)

References 47 publications

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“…Reference [14], the author proposed an algorithm combining simulated annealing and genetic algorithm(GA) to carry out path planning. In reference [15], the author proposes a hybrid path planning (HPP) algorithm to efficiently collect data by ensuring the shortest collision-free path for UAVs in emergency situations. The HPP algorithm first uses the probabilistic roadmap method to get the shortest collision-free route and then uses the improved artificial bee colony algorithm to dynamically optimize the collision constraints.…”

Section: Introductionmentioning

confidence: 99%

“…The update method of the relaxation constraint ε(T) is listed in Formula (15), r f T represents the ratio of feasible and infeasible solutions in the Tth generation, and α is to control the searching preference between the feasible and infeasible regions (α ∈ [0, 1]). Different from other relaxation constraint mechanism design, two control parameters τ and cp are introduced to control the speed of reducing the relaxation of constraints for different feasible solution ratios in Formula (15), which can help to find feasible solutions more quickly and efficiently. T c is the preset maximum relaxation generation, which is used to control the time when the relaxation constraint is reduced to zero.…”

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confidence: 99%

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UAV Path Planning Based on Multi-Stage Constraint Optimization

Shen

Zhu

Kang

et al. 2021

Drones

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Evolutionary Algorithms (EAs) based Unmanned Aerial Vehicle (UAV) path planners have been extensively studied for their effectiveness and high concurrency. However, when there are many obstacles, the path can easily violate constraints during the evolutionary process. Even if a single waypoint causes a few constraint violations, the algorithm will discard these solutions. In this paper, path planning is constructed as a multi-objective optimization problem with constraints in a three-dimensional terrain scenario. To solve this problem in an effective way, this paper proposes an evolutionary algorithm based on multi-level constraint processing (ANSGA-III-PPS) to plan the shortest collision-free flight path of a gliding UAV. The proposed algorithm uses an adaptive constraint processing mechanism to improve different path constraints in a three-dimensional environment and uses an improved adaptive non-dominated sorting genetic algorithm (third edition—ANSGA-III) to enhance the algorithm’s path planning ability in a complex environment. The experimental results show that compared with the other four algorithms, ANSGA-III-PPS achieves the best solution performance. This not only validates the effect of the proposed algorithm, but also enriches and improves the research results of UAV path planning.

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Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

UAV Path Planning Based on Multi-Stage Constraint Optimization

Shen

Zhu

Kang

et al. 2021

Drones

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“…When it comes to communication infrastructure, UAVs can be useful to perform data collection on a network of IoT devices [7][8][9]. Data collection from static nodes is a typical application for IoT sensor networks.…”

Section: Introductionmentioning

confidence: 99%

“…For the drone to store the data collected from all visited clusters, the total amount of data collected by a specific UAV must be less than or equal to the storage available on that drone as formalized by restriction (7). The total energy consumption when visiting the points and hovering to perform the synchronization must be less than the autonomy in the specific vehicle (8). The e k ij is the energy spent by UAV to travel between points ij.…”

mentioning

confidence: 99%

Flight Planning Optimization of Multiple UAVs for Internet of Things

Rodrigues

Riker

Ribeiro

et al. 2021

Sensors

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This article presents an approach to autonomous flight planning of Unmanned Aerial Vehicles (UAVs)-Drones as data collectors to the Internet of Things (IoT). We have proposed a model for only one aircraft, as well as for multiple ones. A clustering technique that extends the scope of the number of IoT devices (e.g., sensors) visited by UAVs is also addressed. The flight plan generated from the model focuses on preventing breakdowns due to a lack of battery charge to maximize the number of nodes visited. In addition to the drone autonomous flight planning, a data storage limitation aspect is also considered. We have presented the energy consumption of drones based on the aerodynamic characteristics of the type of aircraft. Simulations show the algorithm’s behavior in generating routes, and the model is evaluated using a reliability metric.

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“…In the context of smart cities, wireless sensor networks play an important role in developing smart applications [ 1 ], emergency applications [ 2 ], seismic monitoring buildings [ 3 ], air pollution monitoring [ 4 ], characterization of urban anomalous noise events [ 5 ], and many others.…”

Section: Introductionmentioning

confidence: 99%

Multi-Agent System for Intelligent Urban Traffic Management Using Wireless Sensor Networks Data

Muntean

2021

Sensors

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Intelligent traffic management is an important issue for smart cities. City councils try to implement the newest techniques and performant technologies in order to avoid traffic congestion, to optimize the use of traffic lights, to efficiently use car parking, etc. To find the best solution to this problem, Birmingham City Council decided to allow open-source predictive traffic forecasting by making the real-time datasets available. This paper proposes a multi-agent system (MAS) approach for intelligent urban traffic management in Birmingham using forecasting and classification techniques. The designed agents have the following tasks: forecast the occupancy rates for traffic flow, road junctions and car parking; classify the faults; control and monitor the entire process. The experimental results show that k-nearest neighbor forecasts with high accuracy rates for the traffic data and decision trees build the most accurate model for classifying the faults for their detection and repair in the shortest possible time. The whole learning process is coordinated by a monitoring agent in order to automate Birmingham city’s traffic management.

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Hybrid Path Planning for Efficient Data Collection in UAV-Aided WSNs for Emergency Applications

Cited by 36 publications

References 47 publications

UAV Path Planning Based on Multi-Stage Constraint Optimization

UAV Path Planning Based on Multi-Stage Constraint Optimization

Flight Planning Optimization of Multiple UAVs for Internet of Things

Multi-Agent System for Intelligent Urban Traffic Management Using Wireless Sensor Networks Data

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