Contemporary uses I General-purpose autonomous robots I Increased productivity, accuracy, and endurance I Types of robots

Contemporary uses

At present there are 2 main types of robots, based on their use: General-purpose autonomous robots and Purpose-build robots.

General-purpose autonomous robots

A general-purpose robot acts as a guide during the day and a security guard at night

General-purpose autonomous robots are robots that typically mimic human behavior and are often build to be physically similar to humans as well. This type of robot is therefore also often called a humanoid robot. General-purpose autonomous robots are not as flexible as people, but they often can navigate independently in known spaces. Like computers, general-purpose robots can link with software and accessories that increase their usefulness. They may recognize people or objects, talk, provide companionship, monitor environmental quality, pick up supplies and perform other useful tasks. General-purpose robots may perform a variety of tasks simultaneously or they may take on different roles at different times of day.

Purpose-build robots

In 2006, there were an estimated 3,540,000 service robots in use, and an estimated 950,000 industrial robots. ^[35] A different estimate counted more than one million robots in operation worldwide in the first half of 2008, with roughly half in Asia, 32% in Europe, 16% in North America, 1% in Australasia and 1% in Africa.^[36] Industrial and service robots can be placed into roughly two classifications based on the type of job they do. The first category includes tasks which a robot can do with greater productivity, accuracy, or endurance than humans; the second category consists of dirty, dangerous or dull jobs which humans find undesirable.

Increased productivity, accuracy, and endurance

A Pick and Place robot in a factory

Many factory jobs are now performed by robots. This has led to cheaper mass-produced goods, including automobiles and electronics. Stationary manipulators used in factories have become the largest market for robots. In 2006, there were an estimated 3,540,000 service robots in use, and an estimated 950,000 industrial robots. ^[37] A different estimate counted more than one million robots in operation worldwide in the first half of 2008, with roughly half in Asia, 32% in Europe, 16% in North America, 1% in Australasia and 1% in Africa.^[38]

Some examples of factory robots:

• Car production: Over the last three decades automobile factories have become dominated by robots. A typical factory contains hundreds of industrial robots working on fully automated production lines, with one robot for every ten human workers. On an automated production line, a vehicle chassis on a conveyor is welded, glued, painted and finally assembled at a sequence of robot stations.
• Packaging: Industrial robots are also used extensively for palletizing and packaging of manufactured goods, for example for rapidly taking drink cartons from the end of a conveyor belt and placing them into boxes, or for loading and unloading machining centers.
• Electronics: Mass-produced printed circuit boards (PCBs) are almost exclusively manufactured by pick-and-place robots, typically with SCARA manipulators, which remove tiny electronic components from strips or trays, and place them on to PCBs with great accuracy.^[39] Such robots can place hundreds of thousands of components per hour, far out-performing a human in speed, accuracy, and reliability.^[40]

Automated guided vehicle carrying medical supplies and records

* Automated guided vehicles (AGVs): Mobile robots, following markers or wires in the floor, or using vision^[41] or lasers, are used to transport goods around large facilities, such as warehouses, container ports, or hospitals.^[42]

• • Early AGV-Style Robots were limited to tasks that could be accurately defined and had to be performed the same way every time. Very little feedback or intelligence was required, and the robots needed only the most basic exteroceptors (sensors). The limitations of these AGVs are that their paths are not easily altered and they cannot alter their paths if obstacles block them. If one AGV breaks down, it may stop the entire operation.

• • Interim AGV-Technologies developed that deploy triangulation from beacons or bar code grids for scanning on the floor or ceiling. In most factories, triangulation systems tend to require moderate to high maintenance, such as daily cleaning of all beacons or bar codes. Also, if a tall pallet or large vehicle blocks beacons or a bar code is marred, AGVs may become lost. Often such AGVs are designed to be used in human-free environments.

• • Newer AGVs such as the Speci-Minder,^[43] ADAM, ^[44] Tug^[45] and PatrolBot Gofer^[46] are designed for people-friendly workspaces. They navigate by recognizing natural features. 3D scanners or other means of sensing the environment in two or three dimensions help to eliminate cumulative errors in dead-reckoning calculations of the AGV's current position. Some AGVs can create maps of their environment using scanning lasers with simultaneous localization and mapping (SLAM) and use those maps to navigate in real time with other path planning and obstacle avoidance algorithms. They are able to operate in complex environments and perform non-repetitive and non-sequential tasks such as transporting photomasks in a semiconductor lab, specimens in hospitals and goods in warehouses. For dynamic areas, such as warehouses full of pallets, AGVs require additional strategies. Only a few vision-augmented systems currently claim to be able to navigate reliably in such environments.

[edit] Dirty, dangerous, dull or inaccessible tasks

A U.S. Marine Corps technician prepares to use a telerobot to detonate a buried improvised explosive device near Camp Fallujah, Iraq

There are many jobs which humans would rather leave to robots. The job may be boring, such as domestic cleaning, or dangerous, such as exploring inside a volcano.^[47] Other jobs are physically inaccessible, such as exploring another planet,^[48] cleaning the inside of a long pipe, or performing laparoscopic surgery.^[49]

• Telerobots: When a human cannot be present on site to perform a job because it is dangerous, far away, or inaccessible, teleoperated robots, or telerobots are used. Rather than following a predetermined sequence of movements, a telerobot is controlled from a distance by a human operator. The robot may be in another room or another country, or may be on a very different scale to the operator. For instance, a laparoscopic surgery robot allows the surgeon to work inside a human patient on a relatively small scale compared to open surgery, significantly shortening recovery time.^[49]When disabling a bomb, the operator sends a small robot to disable it. Several authors have been using a device called the Longpen to sign books remotely.^[50] Teleoperated robot aircraft, like the Predator Unmanned Aerial Vehicle, are increasingly being used by the military. These pilotless drones can search terrain and fire on targets.^[51][52] Hundreds of robots such as iRobot's Packbot and the Foster-Miller TALON are being used in Iraq and Afghanistan by the U.S. military to defuse roadside bombs or Improvised Explosive Devices (IEDs) in an activity known as explosive ordnance disposal (EOD).^[53]

• Automated fruit harvesting machines: are being used to pick fruit on orchards at a cost lower than that of human pickers.

The Roomba domestic vacuum cleaner robot does a single, menial job

• In the home: As prices fall and robots become smarter and more autonomous, simple robots dedicated to a single task work in over a million homes. They are taking on simple but unwanted jobs, such as vacuum cleaning and floor washing, and lawn mowing. Some find these robots to be cute and entertaining, which is one reason that they can sell very well.
• Elder Care: The population is aging in many countries, especially Japan, meaning that there are increasing numbers of elderly people to care for, but relatively fewer young people to care for them.^[54][55] Humans make the best carers, but where they are unavailable, robots are gradually being introduced.^[56]

Types of robots

TOPIO, a humanoid robot can play ping-pong, developed by TOSY. ^[57]

Robots can also be classified by their specificity of purpose. A robot might be designed to perform one particular task extremely well, or a range of tasks less well. Of course, all robots by their nature can be re-programmed to behave differently, but some are limited by their physical form. For example, a factory robot arm can perform jobs such as cutting, welding, gluing, or acting as a fairground ride, while a pick-and-place robot can only populate printed circuit boards.

source: wikipedia