senso-concept-Mcs (techRobo)

McsHitp-creation:: {2023-10-25}

overview of techRobo

"overview of robotics:
Robotics is a multidisciplinary field that focuses on the design, construction, operation, and use of robots. Robots are autonomous or semi-autonomous machines that can perform tasks or activities in the physical world, typically with some level of automation or remote control. Robotics encompasses a wide range of technologies and applications, and it plays a vital role in various industries and sectors. Here's an overview of key aspects of robotics:

1. Types of Robots:
- Industrial Robots: Used in manufacturing and assembly lines for tasks like welding, painting, and material handling.
- Service Robots: Designed to assist humans in various tasks, including domestic robots, healthcare robots, and personal assistants.
- Autonomous Vehicles: Self-driving cars, drones, and unmanned aerial vehicles (UAVs) fall under this category.
- Humanoid Robots: Human-like robots designed for research, entertainment, and assistance in complex environments.
- Military and Defense Robots: Used for reconnaissance, bomb disposal, and other military applications.
- Agricultural Robots: Automate tasks such as planting, harvesting, and monitoring in agriculture.

2. Components of Robotics:
- Sensors: Robots use various sensors, such as cameras, lidar, ultrasound, and touch sensors, to perceive their environment.
- Actuators: These are motors and mechanisms that allow robots to move and interact with their surroundings.
- Control Systems: Algorithms and software that enable robots to make decisions and carry out tasks.
- Manipulators: Robot arms and grippers that manipulate objects.
- Power Supply: Robots require a power source, often batteries or electrical outlets.

3. Applications of Robotics:
- Manufacturing: Robotics has revolutionized industrial production, increasing efficiency and precision.
- Healthcare: Robots are used for surgery, rehabilitation, and patient care.
- Space Exploration: Robotic rovers and probes explore other planets and celestial bodies.
- Agriculture: Robots assist in precision agriculture, planting, and harvesting.
- Search and Rescue: Robots can navigate disaster-stricken areas to locate survivors.
- Defense: Military robots can be used for reconnaissance, surveillance, and bomb disposal.

4. Challenges in Robotics:
- Perception: Robots need to accurately sense and understand their environment, including object recognition and navigation.
- Control: Developing control algorithms to make robots move and interact effectively.
- Safety: Ensuring that robots can operate safely around humans.
- Ethics: Addressing ethical concerns surrounding the use of robots, such as privacy and job displacement.
- Autonomy: Advancing the autonomy of robots to make decisions and adapt to changing situations.

5. Emerging Trends:
- Machine Learning and AI: Robotics benefits from AI techniques, allowing robots to learn and adapt to different tasks.
- Soft Robotics: Developing robots with more flexible and adaptable structures.
- Human-Robot Collaboration: Creating robots that can work alongside humans in shared environments.
- Swarm Robotics: Coordinating groups of small robots to work together efficiently.
- Biohybrid Robots: Combining biological components with robotics for enhanced performance.

Robotics is a dynamic field with a promising future, as technological advancements continue to shape its development and expand its applications across various industries."
[{2023-10-25 retrieved}]

* McsEngl.McsTch000005.last.html//dirTch//dirMcs!⇒techRobo,
* McsEngl.dirTch/McsTch000005.last.html!⇒techRobo,
* McsEngl.robotics!⇒techRobo,
* McsEngl.techRbtc!⇒techRobo,
* McsEngl.techRobo!=McsTch000005,
* McsEngl.techRobo!=tech.robotics, {2023-12-30},

Asimov-3-laws-of-robotics of techRobo

">Isaac Asimov’s “Three laws of robotics“:
Isaac Asimov, a science fiction author and biochemist, introduced the "Three Laws of Robotics" in his 1942 short story "Runaround," which is part of his collection of stories later compiled in the book "I, Robot." These laws were designed as a set of moral guidelines that robots in his fictional universe would be programmed to follow. They are as follows:

1. **A robot may not injure a human being or, through inaction, allow a human being to come to harm.**
2. **A robot must obey the orders given it by human beings except where such orders would conflict with the First Law.**
3. **A robot must protect its own existence as long as such protection does not conflict with the First or Second Law.**

Asimov's laws have had a significant impact on the way people think about the ethical design and programming of artificial intelligence and robotics, despite being a fictional concept. They have been widely referenced and discussed in various discussions about AI ethics."
[{2023-12-12 retrieved}]

* McsEngl.Asimov-3-laws-of-robotics,
* McsEngl.techRobo'Asimov-3-laws-of-robotics,

info-resource of techRobo


* McsEngl.techRobo'Infrsc,

DOING of techRobo


* McsEngl.techRobo'doing,

evoluting of techRobo

"evolution of robotics:
The evolution of robotics is a fascinating journey that spans several centuries. Here's an overview of the key milestones and developments in the field of robotics:

1. Early Automata (Antiquity to the 18th Century):
- Ancient civilizations, including the Greeks and Egyptians, created simple mechanical devices, such as water clocks and automatic doors, which can be considered early forms of automata.
- In the 15th and 16th centuries, inventors like Leonardo da Vinci sketched designs for intricate mechanical knights and robotic lions.

2. Industrial Revolution (Late 18th Century to 19th Century):
- The Industrial Revolution brought significant advancements in machinery and automation, laying the foundation for modern robotics.
- The Jacquard Loom, developed in the early 1800s, used punch cards to control textile patterns, which can be seen as a precursor to computer programming and automation.

3. Early 20th Century:
- The term "robot" was first introduced in a 1920 play, "R.U.R." (Rossum's Universal Robots) by Karel Čapek. It referred to artificial, humanoid-like workers.
- The 1930s saw the creation of the first electronic digital computer, which was a critical step in the development of robotics.

4. World War II and the Post-War Period:
- The demand for remotely operated devices during World War II led to the development of early teleoperated and remotely controlled machines, including bomb disposal robots.
- Post-war, the invention of the Unimate, an industrial robot developed by George Devol and Joseph Engelberger in the 1950s, marked the beginning of industrial robotics.

5. Advancements in Computing and Control (1950s-1960s):
- The development of computer technology and the introduction of microprocessors in the late 20th century enabled greater automation in robotics.
- Researchers like Joseph F. Engelberger, known as the "Father of Robotics," and John McCarthy made significant contributions to robotics.

6. Mobile Robots and Research (1970s-1980s):
- The 1970s saw the emergence of mobile robots, including the Stanford Cart and the Shakey robot, which could navigate environments autonomously.
- Research institutions, like MIT's AI Lab and Stanford's AI Lab, played a crucial role in advancing robotics technology.

7. Industrial Robotics (Late 20th Century):
- Industrial robots became widely adopted in manufacturing, particularly in the automotive industry, to perform tasks such as welding, painting, and assembly.
- The development of articulated robotic arms and more advanced sensors improved the capabilities of industrial robots.

8. Personal and Service Robotics (Late 20th Century-Present):
- The late 20th century saw the emergence of personal and service robots, including vacuum cleaning robots, medical robots, and educational robots.
- Companies like iRobot (maker of the Roomba) and Boston Dynamics have pushed the boundaries of robot capabilities.

9. Modern Trends (21st Century):
- Robotics has seen significant advancements in artificial intelligence and machine learning, allowing robots to adapt to dynamic environments and learn from experience.
- Emerging technologies like soft robotics, exoskeletons, and human-robot interaction have gained prominence.

The field of robotics continues to evolve rapidly, with a focus on increasing autonomy, improving human-robot interaction, and expanding applications across various industries, from healthcare and agriculture to space exploration and beyond. Robotics is expected to play a crucial role in shaping the future of technology and human society.
[{2023-10-25 retrieved}]

* McsEngl.evoluting-of-techRobo,
* McsEngl.techRobo'evoluting,

· creation of current concept.


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* McsEngl.techRobo'whole-tree,

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