Robotics

Robot rovers are autonomous or remotely-operated vehicles designed for exploration and research in various environments, such as other planets, moons, or extreme terrestrial locations. They are equipped with scientific instruments to collect data, capture images, and conduct experiments, helping scientists learn more about geology, climate, and potential life. Rovers like NASA's Mars Curiosity and Perseverance have advanced mobility systems that allow them to navigate challenging terrains while transmitting valuable information back to Earth. Overall, they play a crucial role in expanding our understanding of the universe.

Mobile robots offer several advantages, including increased efficiency in performing repetitive tasks, the ability to operate in hazardous environments without risking human safety, and the potential for 24/7 operation without fatigue. However, they also have disadvantages, such as high initial costs, reliance on complex technology that can malfunction, and limitations in navigating unpredictable environments. Additionally, they may face challenges in integration with existing systems and require ongoing maintenance and updates.

Application of robots are very important especially in areas where humans will easily get fatigue or collapse due to little oxygen and high temperatures.

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A light-seeking robot, also known as a phototropic robot, is designed to detect and move toward light sources. These robots utilize sensors, such as photoresistors or photodiodes, to measure light intensity and adjust their movement accordingly. This behavior mimics the natural phenomenon of phototropism seen in plants, enabling the robot to efficiently navigate its environment in search of light. These robots can be used in various applications, including solar energy optimization and autonomous exploration.

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The ATLAS robot is taught to perform its tasks through a combination of programming, machine learning, and simulation. Researchers at Boston Dynamics utilize a variety of training techniques, including reinforcement learning and motion planning algorithms, to enable ATLAS to learn from its environment and improve its performance over time. The robot practices tasks in virtual simulations before executing them in the real world, allowing for safer and more efficient learning. Additionally, human demonstrations can be used to guide ATLAS in mimicking complex movements and tasks.

A wired robot is a type of robotic system that is connected to a power source or control system through physical wires or cables. This connection allows for stable communication and power supply, enabling the robot to perform various tasks effectively. Wired robots are often used in industrial settings for automation, assembly, and material handling, where reliability and precision are crucial. However, their mobility may be limited compared to wireless robots.

Humans possess emotional intelligence, allowing for empathy, compassion, and nuanced understanding of complex social dynamics. Our creativity and ability to think abstractly enable us to innovate and connect disparate ideas in ways that robots cannot replicate. Additionally, the capacity for moral reasoning and ethical decision-making is deeply rooted in human experience and cultural context, making it challenging, if not impossible, for robots to fully emulate. Lastly, the unique human experience of consciousness and self-awareness adds a depth to our interactions that machines cannot achieve.

Robots impact daily life in various ways, from household appliances like robotic vacuum cleaners that automate cleaning tasks to advanced personal assistants that streamline scheduling and information retrieval. In industries, robots enhance productivity by performing repetitive tasks with precision and efficiency. Additionally, in healthcare, robotic systems assist with surgeries and patient care, improving outcomes and reducing human error. Overall, robots contribute to convenience, efficiency, and safety in everyday activities.

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the military uses robots for a large number of reasons, with bomb disposal, combat, and air strikes being very notable uses

The military uses robots for a large number of reasons, with bomb disposal, combat, and air strikes being very notable uses.

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The working envelope of a robot is boundary of the space, or volume, in which the robot can perform its function. Different robot configurations generate characteristic working envelope shapes. This working envelope is important when selecting a robot for a particular application.

Several details should be borne in mind:

- The working envelope refers to the working volume which can be reached by some point at the end of the robot arm, this point is usually the centre of the end effector mounting plate. It excludes any tools or workpiece which the end effector may hold.

- There are often areas within the working envelope which cannot be reached by the end of the robot arm. Such areas are termed dead zones.

- The maximum quoted payload capacity can only be achieved at certain arm spans this may not necessarily be at maximum reach.

There are several standard shapes for the working envelope:

Cartesian Configuration: a rectangular prism. There are no dead zones within the working envelope and the robot can manipulate its maximum payload throughout the working volume.

Cylindrical Configuration: a cylinder. The cylinder is hollow, since there is a limit to how far the arm can retract, this creates a cylindrical dead zone around the robot structure.

Polar Configuration: the volume between two partial spheres. Physical limits are imposed by the design on the amount of angular movement in both the vertical and horizontal planes. These restrictions create conical dead zones both above and below the robot structure.

Revolute Configuration: almost a true sphere, or a complex cusp shape. The shape depends on the individual design. The working envelope is large relative to the floor space occupied.

SCARA Configuration: a heart- or kidney-shaped prism, having a circular hole passing through the middle. This allow a large coverage in the horizontal plane but relatively little in the vertical plane.

Spine Configuration: approximately a true hemisphere, the size being dependent on the number of articulations in the spine.

Pendulum Configuration: a simple horseshoe having a segmented shaped cross section. The limited working envelope is offset by the fact that this robot can be mounted in almost any position, allowing the envelope to be finely positioned in relation to its task.

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The three countries that produce the most robots are Japan, South Korea, and China. Japan is renowned for its advanced robotics technology, particularly in manufacturing and service sectors. South Korea has a strong focus on automation in industries such as electronics and automotive. China is rapidly increasing its production of robots, driven by its growing manufacturing sector and investment in automation technologies.

It depends on what kind of robot you are talking about.

Robots typically use a combination of sensors to move accurately, including wheel encoders for measuring distance traveled, gyroscopes for orientation, accelerometers for detecting changes in speed, and proximity sensors for obstacle detection. These sensors work together to provide real-time feedback to the robot's control system, ensuring it moves correctly.

Perform the same act precisely over and over without rest.

If it only works with an operator, no.

Robots are able to perform repetitive tasks with great accuracy ati high speeds for extended periods of time without needing any maintenance or down time.