Author: Oliver Bendel

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Completion of the VISUAL Project

On July 31, 2025, the final presentation of the VISUAL project took place. The initiative was launched by Prof. Dr. Oliver Bendel from the University of Applied Sciences and Arts Northwestern Switzerland (FHNW). It was carried out by Doris Jovic, who is completing her Bachelor’s degree in Business Information Technology (BIT) in Basel. “VISUAL” stands for “Virtual Inclusive Safaris for Unique Adventures and Learning”. All over the world, there are webcams showing wild animals. Sighted individuals can use them to go on photo or video safaris from the comfort of their couches. However, blind and visually impaired people are at a disadvantage. As part of Inclusive AI, a prototype was developed specifically for them in this project. Public webcams around the world that are focused on wildlife are accessed. Users can choose between various habitats on land or in water. Additionally, they can select a profile – either “Adult” or “Child” – and a role such as “Safari Adventurer,” “Field Scientist”, or “Calm Observer”. When a live video is launched, three screenshots are taken and compiled into a bundle. This bundle is then analyzed and evaluated by GPT-4o, a multimodal large language model (MLLM). The user receives a spoken description of the scene and the activities. The needs of blind and visually impaired users were gathered through an accessible online survey, supported by FHNW staff member Artan Llugaxhija. The project is likely one of the first to combine Inclusive AI with new approaches from the field of Animal-Computer Interaction (ACI).

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When the Robodog is Barked at

Animal-machine interaction (AMI) is a discipline or field of work that deals with the interaction between animals and machines. This is how Prof. Dr. Oliver Bendel explains it in the Gabler Wirtschaftslexikon. It is primarily concerned with the design, evaluation, and implementation of complex machines and computer systems with which animals interact and which in turn interact and communicate with animals. There are close links to animal-computer interaction (ACI). Increasingly, the machine is a robot that is either remote-controlled or (partially) autonomous. In “The Robodog Project” (also known as “Bao Meets Pluto“), the encounters between robotic quadrupeds and small to medium-sized dogs are explored. The project collaborator is Selinar Rohr, who is writing her bachelor’s thesis in this context. The walking, running, and jumping Unitree Go2 from Oliver Bendel’s private Social Robots Lab is in its original state or is wearing a head made with a 3D printer provided by Norman Eskera. The project is being carried out at the FHNW School of Business and will end on August 12, 2025, after which the results will be presented to the community and, if possible, to the general public.

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Unitree Launches Humanoid Robot R1

The Chinese manufacturer Unitree announced a new bipedal humanoid robot, the R1, on LinkedIn on July 25, 2025. Weighing around 25 kilograms, it is lighter than its predecessor, the G1 (35 kilograms), and significantly more affordable. The starting price is 39,900 yuan (approximately 5,566 USD), compared to 99,000 yuan for the G1. The R1 uses a Multimodal Large Language Model (MLLM) that combines speech and image processing. Equipped with highly flexible limbs – including six dual-axis leg joints, a movable waist, two arms, and a mobile head – it offers a wide range of motion. Unitree positions the R1 as an open platform for developers and researchers. The goal is to make humanoid robots more accessible to a broader market through lower costs and modular technology. In addition to bipedal robots, the company has also been offering quadrupedal robots for several years, such as the Unitree Go1 and Unitree Go2 (Image: ChatGPT/4o Image).

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Pepper and NAO in Chinese Hands

Shenzhen-based Maxvision Technology Corp. has acquired the core assets of French robotics pioneer Aldebaran, including its iconic humanoid robots NAO and Pepper. This was reported by The Robot Report in its article “Maxvision buys core robot assets of Aldebaran, including Nao and Pepper” from July 19, 2025. The move follows Aldebaran’s bankruptcy and receivership earlier this year. The company, founded in 2005, became known for designing approachable humanoid robots for education, healthcare, retail, and research. Maxvision stated that the acquisition will bolster its R&D in emotional interaction and motion control, expand its product portfolio into humanoid robotics, and support global expansion – particularly in Europe and North America. According to The Robot Report, strategic sectors include eldercare, education, border security, and emergency services. To honor Aldebaran’s legacy, Maxvision plans to establish a French subsidiary, retaining local teams and investing in continued innovation, especially in education and healthcare applications.

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Robot Rabbits vs. Pythons

Florida is testing a new tool to fight invasive Burmese pythons in the Everglades: robot rabbits. As reported by Palm Beach Post (July 15, 2025), researchers at the University of Florida, led by wildlife ecologist Robert McCleery, have developed motorized toy bunnies that mimic the movement and body heat of real rabbits. Pythons are known to be drawn to live prey, but using real animals proved impractical – so science stepped in. The solar-powered robot rabbits are placed in test areas and monitored by motion-triggered cameras. When something approaches, researchers get an alert. If it’s a python, trained response teams or nearby hunters can react quickly. If needed, scent may be added to increase effectiveness. The project is funded by the South Florida Water Management District. It complements a wide range of state efforts to control python populations, from infrared detection and DNA tracking to the annual Python Challenge. While full eradication is unlikely, these innovative methods offer hope for better control of one of Florida’s biggest ecological threats. A new book contribution by Oliver Bendel entitled “An Investigation into the Encounter between Social Robots and Animals” deals with animal-like robots that interact with animals in the wild. The book “Animals, Ethics, and Engineering” with this book contribution will be published by Jenny Stanford Publishing in August 2025.

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How Human-Like Should It Be?

The Research Topic “Exploring human-likeness in AI: From perception to ethics and interaction dynamics”, hosted by Frontiers in Cognition, invites submissions on how human-like features in robots and AI systems influence user perception, trust, interaction, and ethical considerations. As AI becomes more integrated into society, anthropomorphic design raises pressing questions: Do human-like traits improve communication and acceptance, or do they lead to unrealistic expectations? What ethical implications arise when machines simulate empathy or emotion? This interdisciplinary call welcomes contributions from fields such as psychology, engineering, philosophy, and education. Submissions may include empirical research, theoretical analysis, reviews, or case studies that explore how human-likeness shapes the way we engage with AI. The deadline for manuscript summaries is September 22, 2025; full manuscripts are due by January 10, 2026. Articles will undergo peer review and are subject to publication fees upon acceptance. Topic editors are Dr. Katharina Kühne (University of Potsdam, Germany) and Prof. Dr. Roger K. Moore (The University of Sheffield, United Kingdom). For full details and submission guidelines, visit: www.frontiersin.org/research-topics/72370/exploring-human-likeness-in-ai-from-perception-to-ethics-and-interaction-dynamics.

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Wearable Social Robots for Space Missions

The short paper “Wearable Social Robots in Space” by Tamara Siegmann and Oliver Bendel (FHNW School of Business) has been accepted for presentation at the International Conference on Social Robotics (ICSR). The conference will take place from September 10 to 12, 2025, in Naples, Italy. Social robots have been explored on Earth since the 1990s, but this study considers their application beyond our planet – specifically, on manned missions to Mars. The focus lies on wearable social robots, a promising form factor due to their compact size and light weight. Using AIBI as a case study, the short paper examines how such a robot could support astronauts under the unique psychological and environmental conditions of deep space travel. The authors discuss the little robot’s potential roles and highlight directions for future development, particularly in improving human-robot interaction and communication. The findings suggest that wearable social robots like AIBI could offer valuable support on long-duration space missions.

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Keynote at Ground Workshop

Chatbots, voice assistants, and robots – both programmable machines and social robots – had been used in learning for decades. At the GROUND 2025 Workshop on 30 June 2025, held as part of the IAS 2025 in Genoa, Italy, Prof. Dr. Oliver Bendel from the FHNW School of Business in Switzerland presented his own projects from the past 15 years. Some of his chatbots and voice assistants, such as GOODBOT, BESTBOT, and SPACE THEA, recognized user problems and responded appropriately. They demonstrated empathy and emotion. Pepper had been used as an educational application for children with diabetes, and Alpha Mini served as an educational tool in elementary schools. Chatbots for dead, endangered, and extinct languages such as @ve, @llegra, and kAIxo were designed to be integrated into learning environments for all age groups. In recent years, the technology philosopher and information systems expert primarily used GPT-based systems such as Social Robotics Girl and Digital Ethics Girl in his courses. These systems were capable of receiving and answering questions from multiple students simultaneously, even when the questions were asked in different languages. Thanks to prompt engineering and retrieval-augmented generation (RAG), they became specialists in their respective domains. In his keynote “Robots, chatbots, and voice assistants in the classroom”, Oliver Bendel asked how chatbots, voice assistants, and social robots would be designed as adaptive systems for multi-user settings in the future. These capabilities were considered especially important in classroom environments (Photo: Giulia Pusceddu).

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Robotic Small Talk

The paper “Small Talk with a Robot Reduces Stress and Improves Mood” by Katharina Kühne, Antonia L. Z. Klöffel, Oliver Bendel, and Martin H. Fischer has been accepted for presentation at the ICSR 2025, which will take place in Naples from September 10 to 12, 2025. Previous research has shown that social support reduces stress and improves mood. This study tested whether small talk with a social robot could be helpful. After performing a stressful task, 98 participants either chatted with a NAO robot, listened to the robot tell a neutral story, or did not interact with the robot. Both robot interactions reduced stress, particularly small talk, which also boosted positive mood. The effects were stronger in those with high acute stress. Positive affect played a key role in stress reduction, suggesting that robot-mediated small talk may be a useful tool for providing emotional support. Dr. Katharina Kühne and Prof. Dr. Martin H. Fischer are researchers at the University of Potsdam. Antonia L. Z. Klöffel assists Katharina Kühne as a junior scientist. Martin Fischer is the head of the Potsdam Embodied Cognition Group (PECoG). Prof. Dr. Oliver Bendel is a PECoG associated researcher. Further information about the conference is available at icsr2025.eu.

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About Wearable Social Robots

The market for wearable social robots remains relatively small. As illustrated by the case of AIBI, early models often face typical teething problems, with user forums filled with questions and complaints. Nevertheless, these technologies hold potential for a wide range of future applications, offering support and benefits not only to healthy individuals but also to people with disabilities or impairments. The paper “Wearable Social Robots for the Disabled and Impaired” by Oliver Bendel explores this topic in depth. It defines wearable social robots and situates them within the broader category of wearable robotics. The paper presents several examples and outlines potential application areas specifically for individuals with disabilities. It also addresses key social, ethical, economic, and technical challenges, building on the preceding analysis. The paper has been accepted for presentation at ICSR 2025, which will take place in Naples from September 10 to 12.