Smart robot for kids / sweeping / smart emo / smart delivery robot

Short Description:

The Rise of Smart Robots: Revolutionizing Kids’ Playtime, Sweeping, Emotions, and Delivery

In recent years, the world has witnessed an exponential growth in smart robot technology. From smart robots designed specifically for kids’ playtime to those adept at sweeping floors, catering to our emotions, or even revolutionizing the delivery industry – these advanced machines are transforming various aspects of our lives. In this article, we will delve into each of these areas and explore the incredible capabilities and benefits that these smart robots bring to the table.

When it comes to smart robots for kids, the possibilities are endless. Gone are the days when children played with simple action figures or dolls. Enter the era of interactive and intuitive companions that engage and educate youngsters in an entirely new way. These smart robots for kids are equipped with artificial intelligence (AI) and can teach children essential skills such as problem-solving, coding, and critical thinking. Moreover, they can serve as playmates, teaching empathy and emotional intelligence. Children can interact with these robots through voice commands, touch, or even facial recognition, fostering a unique bond between humans and machines.

Meanwhile, in the realm of household chores, smart robots have taken on the task of sweeping floors to alleviate the burden from homeowners. These devices are equipped with advanced sensors and mapping technology, allowing them to navigate and clean efficiently. With a simple press of a button or a command given through a mobile app, these smart cleaning robots autonomously sweep the floors, ensuring a clean and dust-free environment. This not only saves time and energy but also provides a hassle-free cleaning experience for busy individuals.

Beyond kids’ playtime and household chores, smart robots are even being developed to cater to our emotions. Known as smart emo or emotional robots, these machines possess the ability to perceive, understand, and react to human emotions. They utilize facial recognition and natural language processing to analyze human expressions, gestures, and vocal tones. By empathizing with individuals and adapting their behavior accordingly, smart emo robots offer companionship and emotional support. This technology has shown incredible promise in various areas, such as therapy, autism assistance, and even social companionship for the elderly.

Furthermore, the delivery industry is witnessing a remarkable transformation with the integration of smart delivery robots. These robots have the potential to revolutionize the way goods are transported and delivered. With their autonomous navigation and mapping capabilities, they can efficiently make their way through busy streets and deliver packages to the designated destinations. This not only reduces human error but also enhances the speed and accuracy of deliveries. Additionally, smart delivery robots offer environmentally friendly solutions, as they often run on clean energy sources, minimizing carbon emissions associated with traditional delivery methods.

As smart robots continue to advance, it is essential to address potential concerns regarding privacy, ethical considerations, and the impact on the job market. Privacy concerns arise due to the collection and analysis of personal data by these robots, necessitating the implementation of stringent data protection measures. Ethical considerations include ensuring that these machines are programmed to act responsibly and not to harm humans or infringe upon their rights. Lastly, it is crucial to monitor the impact of smart robots on the job market, as certain tasks may become automated, potentially leading to job displacement.

In conclusion, smart robots are transforming various areas of our lives, catering to kids’ playtime, sweeping floors, addressing emotions, and revolutionizing the delivery industry. These intelligent machines offer immense convenience, efficiency, and even emotional support. However, it is essential to address any potential concerns and ensure a responsible and ethical integration of smart robots into our society. With continued advancements, smart robots have the potential to enhance our daily lives and shape a future where humans and machines coexist harmoniously.


Product Detail

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Detail

We understand the so-called intelligent robot in a broad sense, and its most profound impression is that it is a unique "living creature" that performs self-control. In fact, the main organs of this self-control "living creature" are not as delicate and complex as real humans.

Intelligent robots have various internal and external information sensors, such as vision, hearing, touch, and smell. In addition to having receptors, it also has effectors as a means of acting on the surrounding environment. This is the muscle, also known as the stepper motor, which moves the hands, feet, long nose, antennae, and so on. From this, it can also be seen that intelligent robots must have at least three elements: sensory elements, reaction elements, and thinking elements.

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We refer to this type of robot as an autonomous robot to distinguish it from the previously mentioned robots. It is the result of cybernetics, which advocates the fact that life and non life purposeful behavior are consistent in many aspects. As an intelligent robot manufacturer once said, a robot is a functional description of a system that can only be obtained from the growth of life cells in the past. They have become something we can manufacture ourselves.

Intelligent robots can understand human language, communicate with operators using human language, and form a detailed pattern of the actual situation in their own "consciousness" that enables them to "survive" in the external environment. It can analyze situations, adjust its actions to meet all the requirements put forward by the operator, formulate desired actions, and complete these actions in situations of insufficient information and rapid environmental changes. Of course, it is impossible to make it identical to our human thinking. However, there are still attempts to establish a certain 'micro world' that computers can understand.

Parameter

Payload

100kg

Drive System

2 X 200W hub motors - differential drive

Top speed

1m/s (software limited - higher speeds by request)

Odometery

Hall sensor odometery accurate to 2mm

Power

7A 5V DC power 7A 12V DC power

Computer

Quad Core ARM A9 - Raspberry Pi 4

Software

Ubuntu 16.04, ROS Kinetic, Core Magni Packages

Camera

Single upward facing

Navigation

Ceiling fiducial based navigation

Sensor Package

5 point sonar array

Speed

0-1 m/s

Rotation

0.5 rad/s

Camera

Raspberry Pi Camera Module V2

Sonar

5x hc-sr04 sonar

Navigation

ceiling navigation, odometry

Connectivity/Ports

wlan, ethernet, 4x USB, 1x molex 5V, 1x molex 12V,1x ribbon cable full gpio socket

Size (w/l/h) in mm

417.40 x 439.09 x 265

Weight in kg

13.5


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