Design of an Autonomous drone for IoT deployment analysis

There is increasing interest in using Unmanned Aircraft Systems (UAS) in flood risk management activities including in response to flood events. However, there is little evidence that they are used in a structured and strategic manner to best effect. An effective response to flooding is essential if lives are to be saved and suffering alleviated. This study evaluates how UAS can be used in the preparation for and response to flood emergencies and develops guidelines for their deployment before, during and after a flood event. A comprehensive literature review and interviews, with people with practical experience of flood risk management, compared the current organizational and operational structures for flood emergency response in both England and India, and developed a deployment analysis matrix of existing UAS applications. An online survey was carried out in England to assess how the technology could be further developed to meet flood emergency response needs. The deployment analysis matrix has the potential to be translated into an Indian context and other countries. Those organizations responsible for overseeing flood risk management activities including the response to flooding events will have to keep abreast of the rapid technological advances in UAS if they are to be used to best effect.

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Fire Department Deployment Analysis: A Public Policy Analysis Case Study-- The RAND Fire Project.

Journal of the American Statistical Association ◽

10.2307/2287877 ◽

1981 ◽

Vol 76 (374) ◽

pp. 500

Author(s):

Werner Z. Hirsch ◽

Warren E. Walker ◽

Jan M. Chaiken ◽

Edward J. Ignall

Keyword(s):

Public Policy ◽

Policy Analysis ◽

Fire Department ◽

Public Policy Analysis ◽

Deployment Analysis

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Deployment analysis of underwater acoustic wireless sensor networks

The Journal of the Acoustical Society of America ◽

10.1121/1.4709163 ◽

2012 ◽

Vol 131 (4) ◽

pp. 3486-3486 ◽

Cited By ~ 1

Author(s):

Xia Li ◽

Shiliang Fang

Keyword(s):

Wireless Sensor Networks ◽

Sensor Networks ◽

Wireless Sensor ◽

Underwater Acoustic ◽

Deployment Analysis

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Experimental and Numerical Investigation of Solar Panels Deployment with Tape Spring Hinges Having Nonlinear Hysteresis with Friction Compensation

Applied Sciences ◽

10.3390/app10217902 ◽

2020 ◽

Vol 10 (21) ◽

pp. 7902

Author(s):

Dong-Yeon Kim ◽

Han-Sol Choi ◽

Jae Hyuk Lim ◽

Kyung-Won Kim ◽

Juwon Jeong

Keyword(s):

Numerical Investigation ◽

Test Results ◽

Solar Panels ◽

Hysteresis Behavior ◽

Nonlinear Hysteresis ◽

Revolute Joints ◽

User Subroutine ◽

Path Dependent ◽

Multi Body ◽

Deployment Analysis

In this work, experimental and numerical investigation on the deployment of solar panels with tape spring (TS) hinges showing complex nonlinear hysteresis behavior caused by the snap-through buckling was conducted. Subsequently, it was verified by comparing simulation results by multi-body dynamics (MBD) analysis with test results on ground-based deployment testing considering gravity compensation, termed zero-gravity (Zero-G) device. It has been difficult to predict the folding and unfolding behavior of TS hinges because their moment–rotation relationship showed a nonlinear hysteresis behavior. To realize this attribute, an algorithm that checks the sign of angular velocity of the revolute joints was used to distinguish folding from unfolding. The nonlinear hysteresis was implemented in terms of two path-dependent nonlinear moment–rotation curves with the aid of the expression function (a kind of user subroutine) in MBD software RecurDyn. Finally, it was found that the results of the deployment analysis were in excellent agreement with those of the test when the friction torques of the revolute joints were properly identified by an inverse analysis with the test frames, thus validating the MBD model.

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