Industrial Surveillance Drone

Industrial operations face constant safety and security threats, which require real-time response solutions that provide rapid, precise and reliable situational awareness. Security operations are simplified with pre-defined missions, and emergency response is enhanced through on-demand availability. The drone helps in total surveillance of industry and preventing industrial accidents caused by fire or by any other means. The proposed technology has sensors mounted on it. It uses temperature sensor-DHT11, gas sensor-MQ2, GPS module, Lora module for transmission. GPS is used for knowing the area of damage or area where a gas leakage is occurring. In addition to the security industrial inspection can be done with the help of a camera mounted on drone. Keyword-Drone, ATmega328P Microcontroller, Temperature Sensor-DHT11, Gas Sensor-MQ2, GPS, Lora Module, Arduino Nano __________________________________________________________________________________________________

The protection of industrial infrastructure is a growing concern within industrial environments. Utilization of humans for efficient surveillance and security monitoring in a large area is inefficient since humans generally fail to maintain the concentration for longer periods of time and also due to cost involvement in employing sufficient human labor. A system architecture and design for a perimeter security system to address the aforesaid issue for large industrial facilities such as airports, seaports, logistic storage complexes and military establishments was being developed as the outcome of our research. It employs an integrated multisensory system to detect, assess and track perimeter intrusions. These sensors are integrated together into a standalone system that acquire, on processing and analyzing the probability of possible threat scenarios ignoring nuisance alarms. Upon finalizing an acquired threat, a quadcopter is autonomously dispatched to the location using an advanced location identification system, which will prioritize the locations according to the severity of threat whilst also alerting the security staff. On reaching the location, the quadcopter provides a real-time video feed while maintaining the focus on the detected target. This system is designed to operate on 24/7 in all-weather condition. A command and control center provides situational awareness to facilitate the security personnel responsible for monitoring and managing incidents. Due to the outcomes of this research, human security personnel will be provided with more relaxation in order to facilitate them to focus on tasks which demand cognitive skills. The proposed method will enhance the surveillance capacity of an installation as well as the rapid deployment capability ultimately leading to an efficient and effective security system with adequate defense in depth which is not found in conventional security systems.

Nowadays world facing many problem in surveillance and security management, for this we are going to introduced a new proposed system is unmanned aerial vehicle. This system is to increases the efficiency and also reduces the man power. Drone is used to cry the camera for surveillance, it can cover particular area or particular person and capture the videos. Capture video can send to raspberry pi processing and processed data can be transferred from drone to nearby station with help of RF single. Unmanned aerial vehicle (UAV), an chief way of aerial remote sensing, takes been broadly used in various fields with the unique technical advantages such as flexibility, suitability, low cost and high-resolution digital surface models.

The current state of security in Kenya is marred by security breaches, expensive and inefficient. Criminal activities go undetected and unnoticed despite the use of sophisticated equipment and trained workforce like surveillance helicopters and manned soldiers hence leading to loss of lives and destruction of equipment and property. This research presents the background information, problem statement, research questions and objectives, justification of the problem, scope, and limitations of the developed prototype. It presents an IT software development and research approach that will be applied to study the various types and ways of automating UAV using relevant or any related literature. Further, the project presents how the design, development, and evaluation of autonomous aerial security surveillance UAV are accomplished. With the use of Unmanned Automated Aerial surveillance vehicles, we can be able to curb the criminals by surveying the security prone territories where it is not safe for a human to go and report in advance. A construction research method and a simple prototype developed and presented that will be used to obtain, analyze, interpret, and present the findings. The implication of the study is that it will provide a basis for further development, automation, and adoption of UAV in aerial security surveillance and reporting to authorities the information that will be used to raise alarms and enhance security.

MATEC Web of Conferences

Nowadays, finding a way to quickly respond to industrial accidents due to human errors or unforeseen situation is high, for example in the petrochemical industry where are handled with toxic and flammable substances, is a priority for the safe coordination of rescue teams based on-real time knowledge of the situation on the ground. Thus, the rapid identification of potential victims, the prevision of post-deflagration work space and the prevention of the new emergencies to limit damage should become a priority. In this paper we propose a quickly solution for rescue intervention based on use of the drone equipped with camera and sensors network capable of transmitting data in real time over the post-explosive environmental conditions to command center for the rapid identification of victims both in open and closed spaces. The paper presents the methods of using drones to explore and identify accident sites. There are modelled and simulated the control system and the image identificat...

Drones, 2021

Using aerial platforms for Non-Destructive Inspection (NDI) of large and complex structures is a growing field of interest in various industries. Infrastructures such as: buildings, bridges, oil and gas, etc. refineries require regular and extensive inspections. The inspection reports are used to plan and perform required maintenance, ensuring their structural health and the safety of the workers. However, performing these inspections can be challenging due to the size of the facility, the lack of easy access, the health risks for the inspectors, or several other reasons, which has convinced companies to invest more in drones as an alternative solution to overcome these challenges. The autonomous nature of drones can assist companies in reducing inspection time and cost. Moreover, the employment of drones can lower the number of required personnel for inspection and can increase personnel safety. Finally, drones can provide a safe and reliable solution for inspecting hard-to-reach o...

International Journal of Business Analytics & Intelligence, 2022

The term ‘drone’ usually refers to any unpiloted aircraft. Sometimes referred to as ‘unmanned aerial vehicles’ (UAVs), these crafts can carry out an impressive range of tasks, ranging from military operations to package delivery. Drones are a valuable addition to any industrial facility’s efforts, as they sanction a limitless aerial perspective. The opportunities for drones to have real worth are endless. A drone is mainly used in the construction industry for surveying and inspection purposes. Drones are equipped with downward facing sensors, such as RGB, multi spectral, thermal, or LIDAR, and they can capture a great deal of aerial data in a short time. The main objective of drones in infrastructure is mainly in the area of safety. Drone technology makes the job of site inspectors safer, as they can conduct inspections remotely without entering hazardous areas. In addition, drone inspections are faster and cost-effective. The methodology of drone application in infrastructure is that they provide construction teams with an overhead view of job sites, materials, machinery, and people. Contractors are using the autonomous flying machines to record images and videos that help optimise everything, from grading plans and operations to identifying differences between asdesigned and as-built site plans. Drones in construction allow contractors a chance to monitor any issue, track progress, and develop better plans on-site by providing an unrivalled view of a site at a fraction of the cost.

2021

The current study reviews the available literature about UAVs employed in the surveillance field for indoor and outdoor spaces. At first, we differentiated between HTA and LTA. After a first analysis, we compared the two categories, and we proposed active solutions. In our opinion, it would be possible to put them into practice by implementing a system which would operate both copter drones and blimps. These, in fact, present advantages and disadvantages which overcome one another, giving the possibility of such dual systems. This study is developed inside a broader analysis on how to provide the right level of security of an automated port that would rely on an autonomous security system.

International Research Journal of Engineering and Technology, 2020

The aim of this research paper is to design a lightweight & cost-effective quadcopter. The quadcopter will be controlled by a RC (Remote Controller) from a specific distance wirelessly. This compact sized system will acquire data such as video/images from the camera installed on the quadcopter and store this data on a memory card. Multiple object detection and tracking are essential for video surveillance. A drone or Unnamed Aerial Vehicle is very useful for aerial surveillance due to its efficiency in capturing remote scenes which are not easily visible through manual inspection. This project will have a great impact to carry out inspection of a larger geographic area in minimal amount of time, especially in large crowded areas during festivals.

IMPLEMENTATION OF UNMANNED AERIAL VEHICLE (DRONE) SURVEILLANCE FOR VIDEO DATA ACQUISITION , 2024

This project report shows the drones and possibilities of their using. It was first discussed on constructing the drone, of which its comprise the most important elements which are frame, propellers, engine, system of power the electronic control and communication system. the drone is powered by batteries, which is the major drawback, because it is exhausted after some minutes of flight, causing a decrease drone on the ground. The lithium-polymer batteries are used for powering the drones. This study also discusses challenges, opportunities, limitations, and strategies for the adoption of drones in construction. It assists to contractors, building planners, designers, academicians, engineers, and architects to improve the construction activities for greater efficiency and better performance. It also motivates towards inclusion of technologies. This project report describes an experimental test campaign while using an Unmanned Aerial Vehicle (UAV) and measuring the obtained UAV positions during different flight tasks and in different operative conditions. This paper describes and analyses the measurements of the flight trajectory of the UAV that was performed with the use of a robotic total station (RTS), as compared to the design data and the data recorded in the internal memory of the UAV. Five different test tasks have been conducted. The obtained results have allowed for the assessment of the correctness of task performance as compared to the ensign and to determine the flying accuracy of the entire UAV set. The proposed set of tasks can be successfully utilized to control the correctness of operation of various types of UAVs and it may be implemented as a universal test to verify the algorithms optimizing take and landings, test flights of the objects, as well as flight planning in various terrain and weather conditions, which will increase the safety of the flights while using UAVs