Military Robots

 

robotics in military applications ppt

Robotics - Robotics Robotics robotics is the science and technology of robots, their design, manufacture, and application. Robotics requires a working knowledge of electronics | PowerPoint PPT presentation | free to view. In addition to these military robots, some of the robots that are also useful in military applications are given below and their real-time operation is also given in the corresponding links. Line Following Robotic Vehicle. RF Controlled Robotic Vehicle with a Laser Beam Arrangement. IR Controlled Robotic Author: Tarun Agarwal. Military Applications of Robotics From Research and Deployments to Legal and Ethical Questions Mini-symposium Military robots are no more restricted to science-fiction novels or to a distant future but have become a concrete reality. Autonomous aerial robots – or drones – are for instance currently deployed, mainly by the US Army, in several.


Robotics project ppt


Exactly how artificial intelligence will change militaries around the world is difficult to say. Predicting the development of any technology even with full information is complicated, but this is especially true of matters related to national security.

Many of the latest developments are classified or selectively disclosed to serve propaganda purposes. Yet even with those constraints, it is possible to get a sense of how robotics and autonomous technology is already being used by militaries and the new applications they could potentially develop in the near future. The potential benefits of autonomous robotics in military applications ppt are numerous, robotics in military applications ppt, which is why billions have been spent on autonomous military systems.

This article will examine the current state of military robots around the world robotics in military applications ppt the possible future applications for some of these technologies:. Government spending shows how much value the United States military puts on drones. The official spending includes the purchase of 31 unmanned aerial systems. Militaries all over the world have already developed robotics to be deployed on land, sea, and air.

Just like autonomous technology in the civilian world, its benefits include reduced labor costs, reduced fuel costs, and reduced size for everything from automatic taxis to delivery drones; autonomous military vehicles provide all of these same advantages but with the additional benefit unique to militaries. That is, fewer warfighters are needed for a given mission, and the efficacy of each warfighter is greater.

Next, advocates credit autonomous weapons systems with expanding the battlefield, allowing combat to reach into areas that were previously inaccessible. Finally, autonomous weapons systems can reduce casualties by removing human warfighters from dangerous missions. Robots can replace human in positions that are too dangerous or too dull. Robots can robotics in military applications ppt be sent into toxic environments. These benefit, which is largely unique to militaries, made them one of the earliest adopters of autonomy and spurred them to invest significantly in it.

As a result, autonomous military equipment is already being deployed to replace people in some of the most dangerous, physically grueling, and mentally taxing duties. Militaries around the world are looking robotics in military applications ppt ways to just autonomous system in every possible field including land, air, and sea.

This article will look at some of the uses in each these areas, robotics in military applications ppt. Readers with a more general interest in robotics might enjoy our full article on machine learning in robotics. On the battlefield, militaries and companies are trying to replace soldiers with combat vehicles operated with robots, allowing militaries to engage the enemy without putting their own troops at risk.

Robot tanks, trucks, and sentries are being developed by replace humans in possible dangerous environments. A year and a half ago, Russian defense contractor Rosoboronexport unveiled their remote control tank, the Uran The tank has advanced target detection and identification systems allowing it to be operated by just one person.

In addition to full operation under manual control it can function autonomously under limited conditions. The ton tank features a 30mm cannon and missile launching capacity. It is expected to be deployed in the Russian army and offered for export. It is designed with urban combat and counterterrorism in mind. The Uran is far larger and better armed than smaller TALON robotswhich have been used by the United States since to remove bombs and remote firing of small arms.

South Korea, with its long, heavily defended border with North Korea, has used a simple AI sentry guns for years. They are fixed location piece of equipment that watches for and responds to possible threats.

The Samsung SGR-A1 was developed in and reportedly deployed in along robotics in military applications ppt demilitarized zone. It can detect human at 3km during the day and 2. They are normally equipped with a mm caliber standard, robotics in military applications ppt. The pattern recognition and tracking software in these systems can automatically detect humans trying to cross the border, issue verbal warnings and even open fire, if given approval by a human operator.

This type of system has been deployed along hostile borders because robots already well outperform individuals when it comes to standing perfectly still and patiently watching for small changes.

No sleeping quarters or bathrooms either. This potentially would allow unmanned vessels to be much smaller and operate for much longer, which is partly why they have generated significant research and development investment. It is currently undergoing open water testing of its autonomous systems and could be handed off to the Navy by Eventually, the vessel is intended to travel thousands of miles and for months on end without a human crew. The goal of this vessel is to track quiet diesel electric submarines but also to test the possibility of completely unmanned vessels in general.

Once the technology is fully tested, it can potentially be used for any type of naval vessel including ones intended for direct combat. The U. Military drones, robotics in military applications ppt, or unmanned combat aerial vehicles UCAVare one of the oldest and most widely used military robot technologies.

Their use goes back over four decades. One of the first military applications of unmanned aerial vehicles was by Israel in Israel effectively converted toy remote planes for surveillance work by equipping them with simple cameras to gather information just across their border with Egypt.

Since then, UCAV have grown significantly more complex and versatile with a wide spectrum of different shapes and sizes. Surveillance continues to be a major use for them for militaries small and large, but they are also used as a weapons platform to directly engage enemy targets.

They have been used for thousands of strikes around the world since The Predator drone is being retired and replaced by the newer MQ-9 Reaper, which can fly faster, longer, and carry a larger weapons payload.

The MQ-9 Reaper is capable of both remote control and autonomous flight. For surveillance purposes, military robotics in military applications ppt continue to get smaller, more reliable, and smarter.

Some of the most advanced examples currently in existence are the micro-drones Perdix recently demonstrated to the U. Department of Defense. The Perdix drones can be deployed in large numbers and automatically communicate with each other to make decisions. Cheap networked drones could find many uses.

The multipoint surrivlence of a robotics in military applications ppt can provide a rich and more complete real time data about the battle field.

They could also be use to jam enemy communications or serve as a communication network. While drones at higher altitudes can provide a macro level of information, robotics in military applications ppt, some companies are also producing ultra small drones the size of hummingbirds to provide individual soldiers with information about what is literally just around the corner. Since then, an updated version has been purchased for use by Norway, Australia, Germany and the United States.

The ultra small drone can be carried and quickly deployed by a soldier in the field to scan the local area with vision or infrared cameras from a place of relative safety. The feed is beamed back to the soldier on a small Ipad like display. Robotics is not just changing the way major powers are waging war but also changing how small countries, rebel groups, terrorist organizations and other non-state actors fight.

The rapid drop in the cost of small commercial drones is making it possible for armed groups with even very limited resources to make use of this technology. Non-state actors are using drones both for simple surveillance and weaponization. Back in ISIS started attaching explosives to hobbyist drones and has managed to inflict casualties with this tactic. Simple quadcopters can be modified to drop bombs or function as low-cost guided weapons. As robots in general get cheaper and more readily available, it will be easier for groups to weaponize them.

There is a period in time roughly half a billion years ago during which the fossil record quickly robotics in military applications ppt from only simple life to a dramatic explosion of complex life of every imaginable shape, size, and mode of movement. Not all these of animal designs survived, but it seems as soon as complex life became possible, animals evolved quickly to try to find every possible niche. This analogy feels particularly applicable for military robots.

It is only in the past decade or two that computer processing, sensors, data storage, etc… have made many of the applications possible, and as a result we are seeing companies and militaries testing out how robots can fill every niche on the battlefield, from drones the size of small birds to large tanks. We are seeing the use of device ranging from stationary autonomous sentries guns to swarms made up of over a hundred drones, all intelligently working together.

Government agencies and companies are even working towards creating humanoid and doglike robots capable of walking, running, jumping and using hands.

It is likely too early to know which particular forms and military applications would be most viable long term, but the current successful use of some military robots indicates there niches that militaries benefit from having robots fill and many more they want to see filled.

The specific need to try to keep personnel out of the line of fire makes the economics behind military robots unique compared to commercial applications. As a result, defense is often be one of the first sectors from which a new type of robot gets investment, robotics in military applications ppt, and there will likely be many robotic applications that only make financial sense for the military.

Indeed, early funding for roboticsAI, and neurotechnologies have often been led by the government at least here in the US. That said, much of the same technology driving the use of robots in the commercial space is also driving the use of robots in the military space. Many of the reasons companies are turning to robotics for commercial applications like self-driving cars or delivery drones — such as labor costs, reduced fuel use, robotics in military applications ppt, improved accuracy etc.

That is why you see military sometimes borrowing from the civilian world and other times is the driving force behind new developments, especially in robotics.

It is likely many of these military system will filter down to the civilian world in some way. The military robots currently being used to replace personnel in particularly dangerous positions will likely be only the start.

Fighting robots make headlines and are the most valuable when it comes to protecting soldiers, but a huge amount of any military budget is logistics. All the same autonomous applications to improve trucking and shipping that are currently being developed for civilian applications would be equally useful to most militaries, once they get to the right price point. The sleek PackBot robot system, designed by iRobot, a Bedford, Massachusetts-based company, robotics in military applications ppt, made its debut in in Afghanistan, where it helped soldiers clear bunkers, caves, collapsed building and cross minefields.

The versatile machine was used again in in Iraq in urban warfare situations and to search vehicles. Despite the widespread adoption of computers and digital technology over the last few decades, how we interact with that technology, robotics in military applications ppt, and use technology to interact with the world around us has remained largely unchanged.

For example, for over 30 years, the primary means of interacting with a computer has been the keyboard and mouse. Certainly there have been updates to the technology — trackpads, for example, have become a popular mouse alternative — but that essential method of interaction remains the same.

The team robotics in military applications ppt use TensorFlow and release its models on GitHub, posting demos, tutorials, and technical papers along the way. Though no date was given, the team said robotics in military applications ppt would soon accept code contributions from the larger community. While exploring the creative capabilities of deep learning, the team also states that they hope Magenta will foster a community of machine learning researchers, coders, and artists to help pioneer new tools for art and music creation.

Examples of medical and military applications can be found in our updated machine learning in robotics guide, robotics in military applications ppt. The application of robotics in surgery has steadily grown since it began in the s. In contrast, the integration of artificial intelligence in this sector is still fairly new.

As promising applications, predominantly in the research and development phase, robotics in military applications ppt, begin to the surface we aim to answer the important questions that business leaders are asking today:. Emerj Artificial Intelligence Research helps enterprises and executives survive and thrive in AI disruption with in-depth AI research, advisory, and insight.

 

Robotics Industry Insights - Robotics in Security and

 

robotics in military applications ppt

 

May 19,  · Military drones, or unmanned combat aerial vehicles (UCAV), are one of the oldest and most widely used military robot technologies. Their use goes back over four decades. One of the first military applications of unmanned aerial vehicles was by Israel in Author: Jon Walker. Jan 16,  · Robotics is science of designing or building an applicationof robots. Simply,Robotics may be defines as “The Studyof Robots”. The aim of robotics is to design an ohwander.tkcs is needed because: •Speed• Can work in hazardous/dangerous temperature• Can do repetitive tasks• Can do work with accuracy 5. • The combination of humans and robots can greatly improve performance, as long as the work is optimally shared. • Human-robot collaboration allows for various levels of automation and human intervention. Tasks can be partially automated if a fully automated solution .