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Developing a Plan for Using Unmanned Aerial Vehicles for Traffic Operations Applications in Virginia

Developing a Plan for Using Unmanned Aerial Vehicles for Traffic Operations Applications in Virginia
Author: Andrew S. Alden
Publisher:
Total Pages: 0
Release: 2022
Genre: Aerial photography
ISBN:
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State departments of transportation are utilizing unmanned aircraft systems (UAS) in a variety of applications that support planning, construction, maintenance, and operations within their jurisdictions. As the use of UAS to support road-traffic-related applications is currently limited by a host of technical, regulatory, and operational issues, further exploration of these aspects is needed to inform the Virginia Department of Transportation’s (VDOT’s) plans to expand the use of UAS to improve travel safety and traffic operations. This exploration included conducting a comprehensive literature review to determine the current state of technology and practice, developing a conceptual plan for UAS implementation into VDOT operations, and performing a UAS application pilot demonstration. The state-of-practice review included VDOT’s use of UAS, as well as that of other state DOTs that have employed UAS in their operations. As part of the implementation plan development, the researchers conducted a survey of state transportation agencies to assess the level of UAS usage, the types of applications that have been used, and impediments to implementation. This work indicates that 36 out of 50 states (72%) are currently employing UAS for various transportation applications, and many are funding centers and programs for UAS operations. Moreover, each of the state DOTs is approaching the introduction and use of UAS technology differently. In many cases, states that had an advanced UAS program have also had a champion who achieved early adoption by leveraging available resources, knowledge, and experience. The experience of these agencies varies widely; some have a wide range of UAS application experience, while others have explored a much narrower range of uses. A preliminary implementation plan was developed that encompassed aspects of potential UAS traffic applications and metrics that could be used to assess an effective UAS deployment. After review of numerous potential UAS applications, assessment of traffic flow at intersections was selected for pilot demonstration. UAS video data was collected at five intersections, and the data from one intersection was analyzed using an online computer vision tool to characterize traffic flow. This intersection was chosen for analysis due to the availability of data from an existing camera-based traffic monitoring system. The two methods of traffic video analysis were described and compared using a small segment of live traffic data. The existing traffic monitoring system uses cameras mounted on signal mast arms and relies upon highly oblique views of vehicles across multiple lanes of traffic, which often results in visual occlusion. In general, the improved view afforded by UAS data acquisition translated to a more accurate assessment of traffic flow. UAS acquisition also provides more flexibility with respect to deployment and a better, more expansive view of the intersection and approaching traffic. However, the UAS system is very limited with respect to viewing time as battery-powered flights are short, and flights over people and moving vehicles are currently restricted by regulations. Longer flight data collection may be accomplished using tethered UAS where power is provided to the aircraft directly from the ground.

Applications of Small Unmanned Aircraft Systems

Applications of Small Unmanned Aircraft Systems
Author: J.B. Sharma
Publisher: CRC Press
Total Pages: 309
Release: 2019-10-18
Genre: Science
ISBN: 0429520859
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Advances in high spatial resolution mapping capabilities and the new rules established by the Federal Aviation Administration in the United States for the operation of Small Unmanned Aircraft Systems (sUAS) have provided new opportunities to acquire aerial data at a lower cost and more safely versus other methods. A similar opening of the skies for sUAS applications is being allowed in countries across the world. Also, sUAS can access hazardous or inaccessible areas during disaster events and provide rapid response when needed. Applications of Small Unmanned Aircraft systems: Best Practices and Case Studies is the first book that brings together the best practices of sUAS applied to a broad range of issues in high spatial resolution mapping projects. Very few sUAS pilots have the knowledge of how the collected imagery is processed into value added mapping products that have commercial and/or academic import. Since the field of sUAS applications is just a few years old, this book covers the need for a compendium of case studies to guide the planning, data collection, and most importantly data processing and map error issues, with the range of sensors available to the user community. Written by experienced academics and professionals, this book serves as a guide on how to formulate sUAS based projects, from choice of a sUAS, flight planning for a particular application, sensors and data acquisition, data processing software, mapping software and use of the high spatial resolution maps produced for particular types of geospatial modeling. Features: Focus on sUAS based data acquisition and processing into map products Broad range of case studies by highly experienced academics Practical guidance on sUAS hardware, sensors, and software utilized Compilation of workflow insights from expert professors and professionals Relevant to academia, government, and industry Positional and thematic map accuracy, UAS curriculum development and workflow replicability issues This book would be an excellent text for upper-level undergraduate to graduate level sUAS mapping application courses. It is also invaluable as a reference for educators designing sUAS based curriculum as well as for potential sUAS users to assess the scope of mapping projects that can be done with this technology.

UAVs and Urban Spatial Analysis

UAVs and Urban Spatial Analysis
Author: Tony H. Grubesic
Publisher: Springer Nature
Total Pages: 206
Release: 2020-01-10
Genre: Science
ISBN: 3030358658
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This book provides an introduction to the use of unmanned aerial vehicles (UAVs) for the geographic observation and spatial analysis of urban areas. The velocity of urban change necessitates observation platforms that not only enhance situational awareness for planning and allied analytical efforts, but also provide the ability to rapidly and inexpensively collect data and monitor change. UAVs can accomplish both of these tasks, but their use in urban environments is loaded with social, operational, regulatory and technical challenges that must be addressed for successful deployments. The book provides a resource for educators and students who work with geographic information and are seeking to enhance these data with the use of unmanned aerial vehicles. Topics covered include, 1) a primer on UAVs and the many different ways they can be used for geographic observation, 2) a detailed overview on the use of aviation maps and charts for operating UAVs in complex urban airspace, 3) techniques for integrating UAV-derived data with more traditional geographic information, 4) application of spatial analytical tools for urban and environmental planning, and 5) an exploration of privacy and public safety issues associated with UAV operation.

Planning Under Uncertainty for Unmanned Aerial Vehicles

Planning Under Uncertainty for Unmanned Aerial Vehicles
Author: Ryan Skeele
Publisher:
Total Pages: 84
Release: 2016
Genre: Drone aircraft
ISBN:
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Unmanned aerial vehicle (UAV) technology has grown out of traditional research and military applications and has captivated the commercial and consumer markets, showing the ability to perform a spectrum of autonomous functions. This technology has the capability of saving lives in search and rescue, fighting wildfires in environmental monitoring, and delivering time dependent medicine in package delivery. These examples demonstrate the potential impact this technology will have on our society. However, it is evident how sensitive UAVs are to the uncertainty of the physical world. In order to properly achieve the full potential of UAVs in these markets, robust and efficient planning algorithms are needed. This thesis addresses the challenge of planning under uncertainty for UAVs. We develop a suite of algorithms that are robust to changes in the environment and build on the key areas of research needed for utilizing UAVs in a commercial setting. Throughout this research three main components emerged: monitoring targets in dynamic environments, exploration with unreliable communication, and risk-aware path planning. We use a realistic fire simulation to test persistent monitoring in an uncertain environment. The fire is generated using the standard program for modeling wildfire, FARSITE. This model was used to validate a weighted-greedy approach to monitoring clustered points of interest (POIs) over traditional methods of tracking a fire front. We implemented the algorithm on a commercial UAV to demonstrate the deployment capability. Dynamic monitoring has limited potential if if coordinated planning is fallible to uncertainty in the world. Uncertain communication can cause critical failures in coordinated planning algorithms. We develop a method for coordinated exploration of a multi-UAV team with unreliable communication and limited battery life. Our results show that the proposed algorithm, which leverages meeting, sacrificing, and relaying behavior, increases the percentage of the environment explored over a frontier-based exploration strategy by up to 18%. We test on teams of up to 8 simulated UAVs and 2 real UAVs able to cope with communication loss and still report improved gains. We demonstrate this work with a pair of custom UAVs in an indoor office environment. We introduce a novel approach to incorporating and addressing uncertainty in planning problems. The proposed Risk-Aware Graph Search (RAGS) algorithm combines traditional deterministic search techniques with risk-aware planning. RAGS is able to trade off the number of future path options, as well as the mean and variance of the associated path cost distributions to make online edge traversal decisions that minimize the risk of executing a high-cost path. The algorithm is compared against existing graphsearch techniques on a set of graphs with randomly assigned edge costs, as well as over a set of graphs with transition costs generated from satellite imagery data. In all cases, RAGS is shown to reduce the probability of executing high-cost paths over A*, D* and a greedy planning approach. High level planning algorithms can be brittle in dynamic conditions where the environment is not modeled perfectly. In developing planners for uncertainty we ensure UAVs will be able to operate in conditions outside the scope of prior techniques. We address the need for robustness in robotic monitoring, coordination, and path planning tasks. Each of the three methods introduced were tested in simulated and real environments, and the results show improvement over traditional algorithms.

Aerial Vehicles

Aerial Vehicles
Author: T. M. Lam
Publisher: BoD – Books on Demand
Total Pages: 782
Release: 2009-01-01
Genre: Technology & Engineering
ISBN: 9537619419
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This book contains 35 chapters written by experts in developing techniques for making aerial vehicles more intelligent, more reliable, more flexible in use, and safer in operation.It will also serve as an inspiration for further improvement of the design and application of aeral vehicles. The advanced techniques and research described here may also be applicable to other high-tech areas such as robotics, avionics, vetronics, and space.

Operational Planning for Multiple Heterogeneous Unmanned Aerial Vehicles in Three Dimensions

Operational Planning for Multiple Heterogeneous Unmanned Aerial Vehicles in Three Dimensions
Author: Blair Ellen Leake Negron
Publisher:
Total Pages: 135
Release: 2009
Genre:
ISBN:
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Unmanned aerial vehicles are being incorporated in an increasing variety of operations. To take full advantage of the vehicles, the plans for the operations should integrate each vehicle's capabilities when planning the operations. This thesis focuses on planning operations for multiple, heterogeneous UAVs for the purpose of monitoring Earth's phenomena through data collection. The planning is done for flight in three dimensions. The problem also includes time window constraints for data collection and incorporates human input in the planning process. Two solution methods are presented: (1) a mixed-integer program, and (2) an algorithm that utilizes a meta-heuristic to generate composite variables for a linear program, called the Composite Operations Planning Algorithm. The suitability of the two methods to solve the operations planning problem is compared based on the ability of each of the methods to find high-value, feasible solutions for large-scale, operationally sized problems in a reasonable amount of time. The analysis shows that the Composite Operations Planning Algorithm can develop operations plans for problems including 15 UAVs and 5000 nodes in less than 25 minutes using a desktop computer.

Options for Enhancing the Department of Defense's Unmanned Aerial Vehicle Programs

Options for Enhancing the Department of Defense's Unmanned Aerial Vehicle Programs
Author: Congressional Budget Office
Publisher: CreateSpace
Total Pages: 78
Release: 2014-08-18
Genre: Technology & Engineering
ISBN: 9781500868840
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Unmanned aerial vehicles (UAVs) are remotely piloted or self-piloted aircraft that can carry cameras, sensors, communications equipment, or other payloads. The Department of Defense has used UAVs in military operations since the 1950s because they can provide reconnaissance, surveillance, and intelligence of enemy forces without risking the lives of an aircrew. In recent years, interest in the many capabilities of UAVs has been growing among the armed services. At the same time, the services have been having difficulty actually acquiring and deploying the UAVs they have tried to develop. As a result, many of those development programs have been cancelled (see Summary Table 1). The Department of Defense (DoD) hopes to do better with the four UAVs that are now under development or in initial production: Predator, Darkstar, Global Hawk, and Outrider. In this paper, the Congressional Budget Office (CBO) examines DoD's unmanned aerial vehicle programs, reviewing their missions, requirements, and development process. It also focuses on the strengths and weaknesses of the Advanced Concept Technology Demonstration (ACTD) process being used to develop them. Criticisms of the new unmanned aerial vehicles have led some Members of Congress to question whether reasonable alternatives exist to DoD's plans for acquiring and using UAVs. This paper examines five options for the various UAV programs. Those alternatives illustrate other potential configurations of the future UAV force-each of which would have advantages and disadvantages that would differ from those of the current combination of programs.