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Auto-Selection Of Package Delivery Location Based On Estimated Time Of Delivery
Drone shipping versus truck delivery in a cross-docking system with multiple fleets and products
Robotic Aerial Vehicle Delivery System and Method
Drone delivery models for healthcare
Multi-Agent Path Finding with Payload Transfers and the Package-Exchange Robot-Routing Problem
Parcel delivery in an urban environment using unmanned aerial systems: a vision paper
The Sky’s (Not) the Limit - Influence of Expertise and Privacy Disposition on the Use of Multicopters
Post-Production Analysis Approach for drone delivery fleet
A multi-objective green UAV routing problem
The Vehicle Routing Problem with Drones: Extended Models and Connections
Logistics support for a delivery drone fleet
A cost-optimization model in multi-agent system routing for drone delivery
The regulation of civilian drones impacts on behavioral privacy
Understanding security threats in consumer drones through the lens of discovery quadcopter family
Drone-Aided Healthcare Services for Patients with Chronic diseases in Rural Areas
Can unmanned aerial systems (drones) be used for the routine transport of chemistry, hematology, and coagulation laboratory specimens?
Autonomous Aerial Cargo/Utility system
The economic and operational value of using drones to transport vaccines
Drone transport of microbes in blood and sputum laboratory specimens
Privacy and drones: Unmanned aerial vehicles
Civilian drones, privacy, and the federal-state balance
A cost-benefit analysis of Amazon Prime Air
Optimizing a Drone Network to Deliver Automated External Defibrillators

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Civilian drones, privacy, and the federal-state balance Bennett, W. C. (2014). Civilian drones, privacy, and the federal-state balance. Center for Technology Innovation at Brookings. https://www.brookings.edu/wp-content/uploads/2016/07/civilian_drones_privacy_bennett_NEW.pdf

Summary

Because remotely controlled flying robots are getting cheaper and more suitable for transportation purposes, we are going to see them more. Those robots are able to go where other vehicles can’t go and observe things humans can’t observe. In that way those robots can violate our privacy. There are a few problems for the government to make a law for this, because we don’t know how drones will be in a few years from now. The development of drones in cooperation with the government could lead to drones that won’t be able to violate too much of our privacy. A downside is that this new style of developing will take a while before it is entered.

A cost-benefit analysis of Amazon Prime Air Welch, Adrienne (2015). "A cost-benefit analysis of Amazon Prime Air". University of Tennessee at Chattanooga. add link kobus

Summary

Amazon is looking to employ drones for package delivery. Amazon offers products at prices consistently lower than traditional retailers. Amazon has also an advantage over other online retailers in the speed at which the company can send a package out for delivery. The current speed in package handling is made possible by 89 fulfillment centers around the world equipped with Kiva robots. By handling the deliveries themselves, Amazon eliminates the middle man between them and their customers saving considerable amounts of money. Drones could reduce labor costs, increase efficiency and reduce errors. In the paper titled, “Analysis of Unmanned Aircraft Systems and Application in the Civil Field”, Kharchenko and Prusov consider the various uses for drones, breaking them down into three groups: safety control, scientific research, and commercial. Kharchenko and Prusov specify the following requirements needed in the structure of an Unmanned Aviation Complex (UAC) or drone station:

the unmanned aircraft itself. control stations (management) of unmanned aircraft and antennas system. software and systems of on-board monitoring of the unmanned aircraft. communication means (earth/air and air/earth) for air traffic control and unmanned aircraft payload. terminals of data processing. landing system.

launch system and systems of the flight refreshment. maintenance equipment and the support of unmanned aircraft and its systems. systems of storage and transportation of unmanned aircraft complex. As drones become more and more popular the airspace could get crowded and the allocation of frequency range for UV’s. Tatham compares the costs of operating a fixed-wing light aircraft, helicopters, and UAVs and finds that UAVs are less expensive to obtain and operate by looking at capital cost, operating speed, and mission cost. The downsides to using drones is that they could invade people’s privacy and that people could try to steal the packages in transit. It is important to note that Amazon will set up this system only in areas where the system would be efficient and profitable. Amazon will have to weigh the costs of setting up and operating the drone system based on population, population density, and the number of customers and potential frequency of use in the area. Amazon could hold an market advantage via patents on the drones/system or by keeping the logistics secret. for the first few years, Amazon will experience an advantage in being the first firm to ever offer such an innovative technology. the optimum location for a firm with several inputs and outputs is the median transport location, the location that splits the total monetary weight of the firm into two equal halves. (the principle of median location). costs may include:

The drones themselves Buildings and land associated with the drone stations Computers and monitoring software systems for drone flights Computer technicians and drone monitors on site Robotics Engineers for maintenance and upgrades to drones on site Utility costs of running the building Logistics management team to oversee operations Potential insurance and legal fees associated with drones Potential air and/or frequency rights for drones, etc.

Optimizing a Drone Network to Deliver Automated External Defibrillators Justin J. Boutilier, BSc Steven C. Brooks, MD Alyf Janmohamed Adam Byers, MDEM Jason E. Buick, MSc Cathy Zhan, MSc Angela P. Schoellig, PhD Sheldon Cheskes, MD Laurie J. Morrison, MD Timothy C. Y. Chan. (2017). “Optimizing a Drone Network to Deliver Automated External Defibrillators”. add link

Summary

This paper focuses on a model for AED delivering drones. The goal of this model is to determine whether a drone network designed with the aid of a mathematical model combining both optimization and queuing can reduce the time to AED arrival. The aim of the drones is to arrive 1, 2 or 3 minutes in advance of 911 arrival, the model calculates how many drones and bases are necessary for multiple cities.