Reliance on speech commands and multiple remotes in smart home automation and major home appliances.
Reliance on speech commands and multiple remotes in smart home automation and IoT devices
Reliance on speech commands and remotes in smart home automation and IoT devices
Develop a seamless and intuitive hands-free control system for smart home automation and major home appliances.
intuitive hands-free control system for smart home automation using Radar sensor
Generate futuristic images depicting the implementation of a cutting-edge hands-free control system for smart home automation and major home appliances.
futuristic home decoration, grown man using advance communication device and halo screen meeting with someone
Microphone, reading aloud, system default image, big data, AI, artificial intelligence
intelligent room, high quality rendering, neon blue lines, smart home, ai
intelligent room, high quality rendering, neon blue lines, smart home, ai
Generate realistic images depicting the implementation of a cutting-edge hands-free control system for smart home automation and major home appliances. Emphasize the seamless and intuitive nature of the interface, showcasing users interacting effortlessly through precise gesture recognition enabled by the BGT60TR13C Infineon’s XENSIV™ 60 GHz radar sensor. Highlight the smart home controller's flexibility, future-proof design, and affordability, aiming to enhance the overall user experience. Integrate visuals that demonstrate the system's application in various scenarios, including health care, material detection, sleeping monitoring, smart home automation, smart speaker control, and presence detection, emphasizing its versatility across different use cases.
Generate realistic images depicting the implementation of a cutting-edge hands-free control system for smart home automation and major home appliances. Emphasize the seamless and intuitive nature of the interface, showcasing users interacting effortlessly through precise gesture recognition enabled by the BGT60TR13C Infineon’s XENSIV™ 60 GHz radar sensor. Highlight the smart home controller's flexibility, future-proof design, and affordability, aiming to enhance the overall user experience. Integrate visuals that demonstrate the system's application in various scenarios, including health care, material detection, sleeping monitoring, smart home automation, smart speaker control, and presence detection, emphasizing its versatility across different use cases.
(kolhaas:1.4)(snohetta:1.2) House in the north of Holland incorporates both integrated sustainable solutions and home automation, whilst enabling a flexible use of space. Located on the outskirts of a Dutch village and close to the sea, the house is backed by a wooded area and fronted by an open expanse of polder landscape. The design of the house responds to both its setting and to the seasons. The more intimate working and sleeping areas are located towards the back, where the enclosure of the woods provides an intimate setting, while the living areas enjoy panoramic views of the polder landscape to the front. The elevated position of the open plan living areas enhances the views to the exterior. Each of the four facades, curve towards the inside to create four distinct petal-like wings. These curving recesses are visually connected to each other through their view lines, which cross at the heart of the building. The vertical organisation of the building follows a centrifugal split-level principle. An open staircase at the centre of the house connects the front and back wings. A comprehensive home automation system enables integrated control of the electrical systems including solar panels and mechanical installations. Complete control of this ‘smart home’ is possible by a central touch-screen in the living area, while decentral devices provide dedicated control per room. Furthermore control is possible remotely by independent devices via LAN-connection. The integrated sustainability concept of the house includes a central airwater heat pump, mechanical ventilation with waste heat recovery and solar panels. Heat gain is reduced through the use of tinted glass on the fully glazed front and back facades (hdr:1.24)(wood:0.8)
Microphone, system default image, big data, AI, artificial intelligence
Gerald Meier, ist ein 65 Jahre alter Ingenieur in Rente. Er wohnt in einem Eigenheim und ist verheiratet. Durch seine frühere Arbeit als Ingenieur hat er viel Erfahrung mit Software und UI. Er interessiert sich besonders für mechanische und elektronische Systeme und Motoren und Autos. Außerdem fährt er gerne Fahrrad. Er moechte sich immer weiterbilden und ist daher gewillt sich mit neuer Technik auseineanderzusetzen. Er moechte selbst neue Systeme aufsetzen, Gesund leben und viel Zeit mit seiner Partnerin verbringen. Um das alles zu erreichen moechte er sein Smart-Home aufbessern, welches derzeit durch eine komplizierte Steuerung ueber mehrere App und ein grundsaetzlich schwer zu verstehendes System das Smart-Home relativ unzugaenglich fuer seine Partnerin, sowie fuer ihn anstregend zu verwenden macht.
Gerald Meier, ist ein 65 Jahre alter Ingenieur in Rente. Er wohnt in einem Eigenheim und ist verheiratet. Durch seine frühere Arbeit als Ingenieur hat er viel Erfahrung mit Software und UI. Er interessiert sich besonders für mechanische und elektronische Systeme und Motoren und Autos. Außerdem fährt er gerne Fahrrad. Er moechte sich immer weiterbilden und ist daher gewillt sich mit neuer Technik auseineanderzusetzen. Er moechte selbst neue Systeme aufsetzen, Gesund leben und viel Zeit mit seiner Partnerin verbringen. Um das alles zu erreichen moechte er sein Smart-Home aufbessern, welches derzeit durch eine komplizierte Steuerung ueber mehrere App und ein grundsaetzlich schwer zu verstehendes System das Smart-Home relativ unzugaenglich fuer seine Partnerin, sowie fuer ihn anstregend zu verwenden macht.
Gerald Meier, ist ein 65 Jahre alter Ingenieur in Rente. Er wohnt in einem Eigenheim und ist verheiratet. Durch seine frühere Arbeit als Ingenieur hat er viel Erfahrung mit Software und UI. Er interessiert sich besonders für mechanische und elektronische Systeme und Motoren und Autos. Außerdem fährt er gerne Fahrrad. Er moechte sich immer weiterbilden und ist daher gewillt sich mit neuer Technik auseineanderzusetzen. Er moechte selbst neue Systeme aufsetzen, Gesund leben und viel Zeit mit seiner Partnerin verbringen. Um das alles zu erreichen moechte er sein Smart-Home aufbessern, welches derzeit durch eine komplizierte Steuerung ueber mehrere App und ein grundsaetzlich schwer zu verstehendes System das Smart-Home relativ unzugaenglich fuer seine Partnerin, sowie fuer ihn anstregend zu verwenden macht.
\"Afternoon sunlight streams into the living room, where the gracious hostess enjoys a leisurely coffee. The figure of the woman gently blurs, becoming a part of the serene ambiance. Meanwhile, a robotic vacuum diligently traverses the floor, creating a distinctive sense of tidiness in the living space. The robotic vacuum takes center stage as the foreground element, symbolizing the fusion of modern technology with the tranquility of home life. This moment captures the midjourney of an afternoon, where human and machine coalesce in the harmonious rhythm of daily living.\"
maison intelligente, futuriste, environnement connecté et automatisé, système de contrôle par IA pour la gestion dénergie, robots domestiques et intelligents, sécurité, durabilité
House in the north of Holland incorporates both integrated sustainable solutions and home automation, whilst enabling a flexible use of space. Located on the outskirts of a Dutch village and close to the sea, the house is backed by a wooded area and fronted by an open expanse of polder landscape. The design of the house responds to both its setting and to the seasons. The more intimate working and sleeping areas are located towards the back, where the enclosure of the woods provides an intimate setting, while the living areas enjoy panoramic views of the polder landscape to the front. The elevated position of the open plan living areas enhances the views to the exterior. Each of the four facades, curve towards the inside to create four distinct petal-like wings. These curving recesses are visually connected to each other through their view lines, which cross at the heart of the building. The vertical organisation of the building follows a centrifugal split-level principle. An open staircase at the centre of the house connects the front and back wings. A comprehensive home automation system enables integrated control of the electrical systems including solar panels and mechanical installations. Complete control of this ‘smart home’ is possible by a central touch-screen in the living area, while decentral devices provide dedicated control per room. Furthermore control is possible remotely by independent devices via LAN-connection. The integrated sustainability concept of the house includes a central airwater heat pump, mechanical ventilation with waste heat recovery and solar panels. Heat gain is reduced through the use of tinted glass on the fully glazed front and back facades.
House in the north of Holland incorporates both integrated sustainable solutions and home automation, whilst enabling a flexible use of space. Located on the outskirts of a Dutch village and close to the sea, the house is backed by a wooded area and fronted by an open expanse of polder landscape. The design of the house responds to both its setting and to the seasons. The more intimate working and sleeping areas are located towards the back, where the enclosure of the woods provides an intimate setting, while the living areas enjoy panoramic views of the polder landscape to the front. The elevated position of the open plan living areas enhances the views to the exterior. Each of the four facades, curve towards the inside to create four distinct petal-like wings. These curving recesses are visually connected to each other through their view lines, which cross at the heart of the building. The vertical organisation of the building follows a centrifugal split-level principle. An open staircase at the centre of the house connects the front and back wings. A comprehensive home automation system enables integrated control of the electrical systems including solar panels and mechanical installations. Complete control of this ‘smart home’ is possible by a central touch-screen in the living area, while decentral devices provide dedicated control per room. Furthermore control is possible remotely by independent devices via LAN-connection. The integrated sustainability concept of the house includes a central airwater heat pump, mechanical ventilation with waste heat recovery and solar panels. Heat gain is reduced through the use of tinted glass on the fully glazed front and back facades.
House in the north of Holland incorporates both integrated sustainable solutions and home automation, whilst enabling a flexible use of space. Located on the outskirts of a Dutch village and close to the sea, the house is backed by a wooded area and fronted by an open expanse of polder landscape. The design of the house responds to both its setting and to the seasons. The more intimate working and sleeping areas are located towards the back, where the enclosure of the woods provides an intimate setting, while the living areas enjoy panoramic views of the polder landscape to the front. The elevated position of the open plan living areas enhances the views to the exterior. Each of the four facades, curve towards the inside to create four distinct petal-like wings. These curving recesses are visually connected to each other through their view lines, which cross at the heart of the building. The vertical organisation of the building follows a centrifugal split-level principle. An open staircase at the centre of the house connects the front and back wings. A comprehensive home automation system enables integrated control of the electrical systems including solar panels and mechanical installations. Complete control of this ‘smart home’ is possible by a central touch-screen in the living area, while decentral devices provide dedicated control per room. Furthermore control is possible remotely by independent devices via LAN-connection. The integrated sustainability concept of the house includes a central airwater heat pump, mechanical ventilation with waste heat recovery and solar panels. Heat gain is reduced through the use of tinted glass on the fully glazed front and back facades.
House in the north of Holland incorporates both integrated sustainable solutions and home automation, whilst enabling a flexible use of space. Located on the outskirts of a Dutch village and close to the sea, the house is backed by a wooded area and fronted by an open expanse of polder landscape. The design of the house responds to both its setting and to the seasons. The more intimate working and sleeping areas are located towards the back, where the enclosure of the woods provides an intimate setting, while the living areas enjoy panoramic views of the polder landscape to the front. The elevated position of the open plan living areas enhances the views to the exterior. Each of the four facades, curve towards the inside to create four distinct petal-like wings. These curving recesses are visually connected to each other through their view lines, which cross at the heart of the building. The vertical organisation of the building follows a centrifugal split-level principle. An open staircase at the centre of the house connects the front and back wings. A comprehensive home automation system enables integrated control of the electrical systems including solar panels and mechanical installations. Complete control of this ‘smart home’ is possible by a central touch-screen in the living area, while decentral devices provide dedicated control per room. Furthermore control is possible remotely by independent devices via LAN-connection. The integrated sustainability concept of the house includes a central airwater heat pump, mechanical ventilation with waste heat recovery and solar panels. Heat gain is reduced through the use of tinted glass on the fully glazed front and back facades.
House in the north of Holland incorporates both integrated sustainable solutions and home automation, whilst enabling a flexible use of space. Located on the outskirts of a Dutch village and close to the sea, the house is backed by a wooded area and fronted by an open expanse of polder landscape. The design of the house responds to both its setting and to the seasons. The more intimate working and sleeping areas are located towards the back, where the enclosure of the woods provides an intimate setting, while the living areas enjoy panoramic views of the polder landscape to the front. The elevated position of the open plan living areas enhances the views to the exterior. Each of the four facades, curve towards the inside to create four distinct petal-like wings. These curving recesses are visually connected to each other through their view lines, which cross at the heart of the building. The vertical organisation of the building follows a centrifugal split-level principle. An open staircase at the centre of the house connects the front and back wings. A comprehensive home automation system enables integrated control of the electrical systems including solar panels and mechanical installations. Complete control of this ‘smart home’ is possible by a central touch-screen in the living area, while decentral devices provide dedicated control per room. Furthermore control is possible remotely by independent devices via LAN-connection. The integrated sustainability concept of the house includes a central airwater heat pump, mechanical ventilation with waste heat recovery and solar panels. Heat gain is reduced through the use of tinted glass on the fully glazed front and back facades.