**Technology for Toy Robots:**
1. **Microcontrollers and Motor Control**: Toys use microcontrollers like Arduino or Raspberry Pi to control movements and interactions.
2. **Sensor Technologies**: Toys employ sensors for detecting acceleration, orientation, and proximity.
3. **Bluetooth and Wi-Fi Connectivity**: Toys can connect to smartphones or other devices for control and updates.
4. **Wireless Sensor Networks**: Robots can communicate with other toys or devices using wireless networking technologies.
5. **Machine Learning and Decision-Making**: Toys can be programmed with machine learning to adapt and learn from their interactions.
6. **Propulsion and Drive Systems**: Toy robots employ mechanisms like wheels, tracks, and servos to move and interact.
7. **Material and 3D Printing**: The use of durable yet child-friendly materials, as well as 3D printing technology, to create the robotic body and mechanisms.
8. **Modularity and Customization**: Retail toys allow users to upgrade or modify their robots, adding user engagement. Examples of toy robots: - Anki's Cozmo (robotic pet) - Sphero's Original ( Bluetooth-controlled robotic ball) - Mattel's Mecca (computerized robot toy) - LEGO Mindstorms (modular robotics system) - Dash (Wi-Fi connected learning robot)
**Technology for Sex Robots:**
1. **Artificial Intelligence and Machine Learning**: Sex robots use algorithms to interact with users, mimicking emotional responses and engaging in simulated dialogue.
2. **Sensor Technology and Motor Control**: Robots employ advanced sensor systems and motors to mimic human-like actions and sensations.
3. **Skin and Tactile Feedback**: Realistic artificial skin and haptic feedback provide a more immersive experience for users.
4. **Realistic Facial Modeling and Avatars**: Advanced facial animation software and lifelike avatars enhance engagement.
5. **Connectivity and Data Storage**: Robots can utilize cloud storage and be controlled remotely, facilitating updates and features.
6. **Advanced 3D Printing and Material Sciences**: Companies that produce sex robots have started using an advanced set of 3D printing technologies and custom-tailored materials to create the sex-bots bodies.
**Technology for Domestic Robots:**
1. **Artificial Intelligence (AI)**: Machine learning algorithms enable domestic robots to learn from experiences and adapt to new situations.
2. **Sensor Technology**: Robots use sensors to detect and interpret environmental information, such as presence, temperature, and light.
3. **Navigation and Localization**: Robots use GPS, lidar, and computer vision to navigate spaces and identify their location.
4. **Mobile Manipulation**: Domestic robots can interact with objects and perform tasks like cleaning, cooking, and laundry.
5. **Human-Robot Interaction (HRI)**: Robots are designed to communicate with humans, understand voice commands, and face recognition.
6. **Robot Operating Systems (ROS)**: ROS provides a framework for building and deploying domestic robots, enabling integration with various sensors and software components.
7. **Autonomy and Choreography**: Domestic robots use planning, scheduling, and decision-making to coordinate tasks and optimize efficiency.
8. **Object Recognition and Manipulation**: Robots can identify and handle specific objects, even if they're cluttered or partially hidden.
9. **Voice Control and Virtual Assistants**: Domestic robots can integrate with popular virtual assistants like Alexa or Google Assistant. Examples of domestic robots: - iRobot's Roomba (vacuuming) - Neato's Botvac (vacuuming) - Samsung's Powerbot (vacuuming) - Mayfield Robotics' Kuri (animation, entertainment) - Jibo (HRI, voice control)