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====Cognitive Enhancement Engine====
====Cognitive Enhancement Engine====
The Cognitive Enhancement Engine of Turing OS enables robots to have the same thinking ability as humans.{{citation needed|date=September 2018}} Based on research into human macro-thinking{{clarify|date=September 2018}} models and micro-thinking{{clarify|date=September 2018}} models, the Turing OS provides powerful thinking for robots, and enables robots to operate in multiple macro- and micro-thinking modes. Macro-thinking is characterized by larger, observable events while micro-thinking is characterized by smaller, more thoughtful/personal moments.<ref>{{Cite journal |last=Clack |first=Jim |date=2017-12-01 |title=Distinguishing between ‘macro’ and ‘micro’ possibility thinking: Seen and unseen creativity |url=https://www.sciencedirect.com/science/article/pii/S1871187117301426 |journal=Thinking Skills and Creativity |volume=26 |pages=60–70 |doi=10.1016/j.tsc.2017.06.003 |issn=1871-1871}}</ref> Robots with the Turing OS attain the thinking level of children aged four to five.{{citation needed|date=February 2020}}
The Cognitive Enhancement Engine of Turing OS enables robots to have the same thinking ability as humans.{{citation needed|date=September 2018}} Based on research into human macro-thinking{{clarify|date=September 2018}} models and micro-thinking{{clarify|date=September 2018}} models, the Turing OS provides powerful thinking for robots, and enables robots to operate in multiple macro- and micro-thinking modes. Macro-thinking is characterized by larger, observable events while micro-thinking is characterized by smaller, more thoughtful/personal moments.<ref>{{Cite journal |last=Clack |first=Jim |date=2017-12-01 |title=Distinguishing between 'macro' and 'micro' possibility thinking: Seen and unseen creativity |url=https://www.sciencedirect.com/science/article/pii/S1871187117301426 |journal=Thinking Skills and Creativity |volume=26 |pages=60–70 |doi=10.1016/j.tsc.2017.06.003 |issn=1871-1871}}</ref> Robots with the Turing OS attain the thinking level of children aged four to five.{{citation needed|date=February 2020}}


The Cognitive Enhancement Engine includes 26 types of macro thinking and 10,140 types of micro thinking.
The Cognitive Enhancement Engine includes 26 types of macro thinking and 10,140 types of micro thinking.

Latest revision as of 09:44, 2 September 2024

Turing Robot (aka Guangnian Wuxian, 图灵机器人) is a Chinese company that develops cognitive computing technology, deep learning, and intelligent robot operating systems.[1] The company was founded in 2010 and is based in the Haidian District of Beijing, China. Yu Zhichen is the CEO of Turing Robot.[2]

Overview

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The company is the first Chinese company engaged in research on the commercialization of artificial intelligence (AI).[citation needed] Its founding members have over ten years of experience in AI research, including semantic recognition, cognitive computing, human-machine interaction, and machine learning.

The company was founded in 2010, and in 2012 released the "Wormhole Voice Assistant" application, which was the first Chinese intelligence-based voice assistant application.[citation needed]

In 2014, Turing released the first open platform for AI robots, also known as the Turing Robot. In November 2015, Turing OS was released.[citation needed]

Turing Robot Open Platform

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Turing Robot Open Platform was at some point [when?] the world's largest Chatbot open platform with the number of developers reached 600,000.[citation needed] Its Chinese semantic recognition accuracy is up to 94.7%, Turing Robot can provide intelligence-based software and hardware products with AI services covering Chinese semantic analysis, natural language and dialogue processing, DeepQA and more.[citation needed]

Since the official launch in November 2014, the Turing Robot has provided technical support to more than 230,000 developers and partners with over 130 billion total queries so far. The Turing Robot is used in many hardware and software fields, including domestic service robots, commercial service robots, companion robots for children, intelligent customer service systems, intelligent vehicle systems, and smart home control systems.[citation needed]

By simulating the cognitive and communicative behaviors of humans, the Turing Robot provides users with a conversation feature that provides intelligence-based interaction in hardware and software products, as well as the NLP Knowledge Base for customized life and business needs. Meanwhile, the Turing Robot offers a package of 500 types of life service skills to accommodate product needs.[citation needed]

The Turing Robot comprehensively integrates over 500 kinds of life information and service skills into software and hardware products. Enquiries can be made about recipes, weather, delivery services, among other things.[citation needed]

Customized features of the Turing Robot

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Features of the Turing Robot include personalized settings, keyword filtering, robot training, accuracy rate setting, and data statistics.[citation needed]

Application scenarios

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Application cases for the Turing Robot could include smart robots, toys, vehicle systems, QQ robots, smart home, and smart custom service.[citation needed]

Turing OS

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Turing OS is an intelligent robot operating system whose design is based on simulating the thinking mode and emotional recognition of humans, which provides natural and friendly multi-mode human-machine interaction methods.[citation needed] It includes a thinking enhancement engine, an affective computing engine and a self-learning engine.

Multimodal interactions

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Turing OS introduces new multi-modal interaction for robots that is closer to human capability that prior technology.[citation needed] With Turing OS installed, robots can understand voice, text, images, body movement, and other multi-modal data from external sources such as humans. Meanwhile, they can provide simultaneous feedback, including through voice, text, and images.

Three engines

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Affective Computing Engine

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The Affective Computing Engine of Turing OS enables robots to have the same ability to demonstrate affection as humans. The Turing OS develops a mature affective computing engine for robots, which assists robots in understanding and expressing human emotions. The affective computing engine of the Turing OS has two components: human emotion recognition and human-like emotion expression.[citation needed]

Cognitive Enhancement Engine

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The Cognitive Enhancement Engine of Turing OS enables robots to have the same thinking ability as humans.[citation needed] Based on research into human macro-thinking[clarification needed] models and micro-thinking[clarification needed] models, the Turing OS provides powerful thinking for robots, and enables robots to operate in multiple macro- and micro-thinking modes. Macro-thinking is characterized by larger, observable events while micro-thinking is characterized by smaller, more thoughtful/personal moments.[3] Robots with the Turing OS attain the thinking level of children aged four to five.[citation needed]

The Cognitive Enhancement Engine includes 26 types of macro thinking and 10,140 types of micro thinking.

Self-learning Engine

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The Self-learning Engine enables robots to have the same learning abilities as humans.[citation needed]

Adopting an ultra-efficient algorithm for deep learning, Turing OS uses enormous big data sources and the operating environment of a supercomputer to provide robots with a powerful capacity for self-learning. This helps robots realize real-time fast iteration and updating of emotion recognition and expression, thinking models, knowledge construction, and adaptive scenarios.[citation needed]

Application services

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Turing OS provides application services, covering 25 applicable scenarios, including: English learning, family entertainment, knowledge learning, and operations control.[citation needed]

Turing OS v1.5

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On The First Innovation Conference of Turing Robot, CEO of Turing Robot, Yu Zhichen released an updated version of Turing OS: Turing OS Version 1.5, with an added visual ability to its former edition.[citation needed]

Turing Robot Application Project

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Turing Robot Application Project was also released on the Innovation Conference of Turing Robot, it includes official applications like Robots’ Chatting, Automatic Camera, Robots Singing and English Read-after. Besides that, the platform is free and open to developers to build their own apps on and Weather Report, Dictionary and Music Playlist were taken for a start.[citation needed]

Applications

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The following applications for Turing Robot and Turing OS exist.[citation needed]

Turing Robot

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  • BOSCH Vehicle System
  • HTC Voice: Little Hi
  • China Telecom Customer Service
  • Letou Carl Vehicle System[citation needed]
  • JIMI Cat APP
  • Kido Smart Watch

Turing OS

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  • Super Wings Robot[4]
  • Doraemon
  • Robotant[5]
  • Hahabot[6]
  • Luobotec[7]
  • Albert Robot
  • Tuba Robot

See also

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References

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  1. ^ "Turing Robot". www.cbinsights.com. CB Insights. Retrieved 5 September 2018.
  2. ^ "China is a gold mine for innovation, says head of Chinese robot firm". CNBC. 24 April 2017. Retrieved 5 September 2018.
  3. ^ Clack, Jim (2017-12-01). "Distinguishing between 'macro' and 'micro' possibility thinking: Seen and unseen creativity". Thinking Skills and Creativity. 26: 60–70. doi:10.1016/j.tsc.2017.06.003. ISSN 1871-1871.
  4. ^ "Super Wings Robot". tech.hexun.com. 11 November 2015.
  5. ^ "Robotant". www.robotant.com.cn. China.
  6. ^ "Hahabot". www.hahabot.com.
  7. ^ "Luobotec". www.luobotec.com.