# RHINO docent tour guide robot > RHINO docent tour guide robot explains exhibits on the way through the museum via display. **Wikidata**: [Q123643929](https://www.wikidata.org/wiki/Q123643929) **Source**: https://4ort.xyz/entity/rhino-docent-tour-guide-robot ## Summary RHINO is a docent tour guide robot operating within the Deutsches Museum Bonn. Deployed in 1997, it utilizes artificial intelligence and machine learning to navigate the museum and explain exhibits to visitors via an onboard display. ## Key Facts - **Start Date:** 1997 - **Location:** Deutsches Museum Bonn - **Function:** Explains museum exhibits via a display while moving through the facility - **Technology:** Uses artificial intelligence and machine learning - **Computational Model:** Utilizes artificial neural networks - **Classification:** Instance of a museum AI project, sensor, and artificial neural network - **Maintenance:** Maintained by WikiProject Museum AI projects (MAp) ## FAQs ### Q: When did the RHINO robot begin operating? A: RHINO began its operations as a museum tour guide in 1997. ### Q: Where is the RHINO robot located? A: RHINO is located at the Deutsches Museum Bonn. ### Q: How does RHINO communicate with museum visitors? A: RHINO explains exhibits to visitors on the way through the museum using a display. ## Why It Matters RHINO serves as a significant early example of autonomous robotics and artificial intelligence applied to public education and cultural institutions. Deployed in 1997, it represents a pioneering effort to integrate complex technologies—specifically artificial neural networks and machine learning—into a dynamic, human-centric environment. Unlike static exhibits, RHINO actively navigates the museum space, demonstrating the practical capabilities of AI sensors and computational models in real-time navigation and interaction. Its presence at the Deutsches Museum Bonn highlights the intersection of robotics and museum pedagogy, showing how automated systems can take on roles traditionally filled by humans to enhance visitor engagement. ## Notable For - **Early AI Integration:** An early instance of a robot using artificial neural networks for public interaction in 1997. - **Museum Education:** Distinct for its ability to explain exhibits dynamically via a display while moving. - **Technical Complexity:** Classified not just as a robot, but functionally as a sensor and a computational model. - **Public Interaction:** Designed specifically to navigate high-traffic areas and interact with the general public. ## Body ### Operational Context RHINO operates as a docent within the **Deutsches Museum Bonn**. Its primary objective is to guide visitors through the museum. As it moves, it provides explanations of the exhibits using an integrated **display**. This allows for a mobile, automated educational experience rather than a static one. ### Technical Architecture The robot is defined by its use of advanced computational technologies. It is an instance of a **museum AI project** that relies heavily on **artificial intelligence** and **machine learning**. * **Artificial Neural Networks:** RHINO utilizes artificial neural networks, a computational model based on connected, hierarchical functions, to process information. * **Sensors:** The entity is also classified as a **sensor**, implying it relies on environmental data collection to navigate the museum space. ### History and Provenance RHINO was established as a functioning exhibit/guide in **1997**. It is documented and maintained by the **WikiProject Museum AI projects (MAp)**. Further details regarding its development and exhibition are available via the Deutsches Museum Bonn's official online resources.