immo!nvest – Die Plattform für Standorte und Immobilien

Category: propTech

  • AI, cyber security and open source

    AI, cyber security and open source

    The Federal Council’s updated “Digital Switzerland” strategy sets clear goals for the country’s digital transformation. It is binding for the Federal Administration and serves as a guide for the cantons, municipalities, business, science and civil society. The aim is for the entire population to benefit from sustainable and responsible digitalisation.

    Focus areas of the strategy
    The Federal Council wants to drive forward the regulation of AI systems and promote their use in the federal administration. The aim is to protect fundamental rights, democracy and the rule of law and to strengthen innovation and competitiveness.

    Strengthening cybersecurity is a key concern. Measures to raise awareness and implement protective measures should ensure the ability to act in crisis situations. New structures should also support the cantons and municipalities.

    The promotion of open source software in the Federal Administration should ensure transparency, innovation and independence. Cooperation with national and international open source communities will be intensified in order to promote the exchange of knowledge.

    Vision and goals
    The strategy aims to prioritise digital services for the benefit of all people in Switzerland. It aims to make targeted use of the opportunities presented by the digital transformation so that everyone benefits in the long term. Switzerland aims to be one of the most digitally competitive and innovative countries in Europe.

    Implementation and dialogue
    The Federal Council is planning advisory board meetings with representatives from business, science, politics, the authorities and civil society to promote dialogue and the further development of the strategy. This collaboration should ensure that the digital transformation is shaped in the common interest.

    International relevance
    The focus topics mentioned in the Swiss digital strategy are also relevant internationally. Countries such as Germany must also address AI, cyber security and open source in order to remain capable of acting in the long term.

  • Research into the preservation of bridges using artificial intelligence

    Research into the preservation of bridges using artificial intelligence

    Scientists at the Swiss Federal Institute of Technology in Zurich(ETH) are researching ways in which artificial intelligence (AI) can be used to optimise the maintenance, repair and construction of railway bridges. In collaboration with SBB, researchers at the Institute of Structural Analysis and Design are creating AI models of reinforced concrete bridges, according to a press release. With the help of large data sets, the machine learning programmes will provide information on the durability and service life of the bridges and assess which structure would be in a critical structural condition.

    “In Switzerland, too, a considerable proportion of infrastructure structures are approaching the end of their planned service life and need to be reviewed and, if necessary, reinforced,” said Sophia Kuhn, PhD student and member of the research group, in the press release. “We are developing a tool that helps to keep bridges in operation for as long as possible and thus conserve resources without taking disproportionate risks of accidents.”

    The models not only provide information on structural safety, but also deliver more precise data than conventional data acquisition for analysing stability. This should save engineers both time and resources in the maintenance of bridges.

    In a further step, the AI assistants developed by the research team will also help with the design of new bridges.

  • AI decodes brain activity

    AI decodes brain activity

    Scientists at EPFL have developed a groundbreaking AI technique based on geometric principles that visualises neuronal activity patterns. The system, called MARBLE (Manifold Representation Basis Learning), breaks down electrical signals from the brain into dynamic patterns that can be decoded by a neural network. This makes it possible to recognise universal strategies of brain activity across different individuals and experimental conditions.

    Visualising hidden patterns in the brain
    Neuroscience is facing a fundamental challenge. Brain activity is usually recorded by analysing a few neurons, which means that a complete picture of neuronal processes is lacking. Pierre Vandergheynst, head of the LTS2 signal processing laboratory at EPFL, compares this problem to the story of blind people feeling different parts of an elephant and drawing contradictory conclusions. The situation is similar with the recording of neuronal signals; a limited data section makes overall understanding more difficult.

    The system has now been able to show that different animals that used the same mental strategies to solve problems exhibited matching neuronal patterns. The technique thus enables a more precise interpretation of brain activity and could set a new standard for analysing dynamic neuronal processes.

    A breakthrough for neuroscience and robotics
    The innovative approach of geometric deep learning makes it possible to analyse neuronal data not only statistically, but also in its natural mathematical context. This shows that brain activity can be visualised as complex geometric structures. For example, in the form of a torus, similar to a donut.

    The EPFL researchers tested MARBLE with recordings from the macaque premotor cortex during grasping movements and in the hippocampus of rats during spatial orientation tasks. The results were impressive. The system decoded the neuronal activity far more precisely than conventional methods and enabled a more intuitive interpretation of the neuronal processes.

    Broad application potential beyond neuroscience
    In addition to its use in brain research, MARBLE could also be of great value to other scientific disciplines. The technology offers the possibility of converting neuronal activity patterns into decodable signals. This can be used to control robotic assistance systems that react to brain activity.

    Pierre Vandergheynst emphasises the potential beyond neuroscience: “Our method is based on the mathematical theory of high-dimensional structures and can also be used in other scientific disciplines to analyse dynamic processes and identify universal patterns.”

    MARBLE could represent a fundamental step forward in the study of complex biological and physical systems, not only revolutionising our understanding of the brain, but also providing new impetus for artificial intelligence and robotics.

  • Winterthur invests in six smart city projects for 2025

    Winterthur invests in six smart city projects for 2025

    Since 2018, Winterthur has been focussing on smart city projects that make the city more efficient, sustainable and liveable. Already 27 projects have been successfully implemented. In 2025, the city will continue to focus on innovative solutions for mobility, digitalisation and ecological urban development.

    The subsidised projects for 2025 are wide-ranging. From the sustainable reuse of building materials to digital registration systems for school sports and an AI-supported cultural calendar. All projects aim to solve existing challenges with creative technologies and new approaches.

    Six funded smart city projects for 2025

    • Sponge city in action: Extreme weather events such as heat and heavy rain are becoming more frequent. This project is testing how green roofs and permeable soils can help to cool the city and better absorb rainwater. The effect of the sponge city elements is visualised in the Grüze innovation laboratory.

    • Winti Re-Use: Construction projects often generate large quantities of recyclable material that has previously been disposed of. A new platform ensures that construction waste is reused sensibly in order to conserve resources and protect the environment.

    • Spitex mobility: Spitex employees are out and about in the city every day – often in their own cars. This project is testing sustainable alternatives such as e-bikes and e-scooters to promote lower-emission mobility and create more flexible transport solutions for care staff.

    • Smart registration for school sports: A digital platform aims to make registering for school sports easier, faster and error-free. Parents and administration benefit from an optimised process that reduces bureaucracy.

    • CulturAI: Winterthur is a lively cultural city, but smaller events often remain in the shadow of larger events. An artificial intelligence (AI) analyses preferences and suggests individually suitable cultural events – even for users with little time for research.

    • Winbib : Unattended opening hours make libraries more flexible to use, so that books and media can also be borrowed in the evenings or at weekends.

    Smart City Winterthur 2030
    The city of Winterthur is pushing ahead with its smart city development in a targeted manner. On 1 January 2025, the City Council adopted the “Smart City Winterthur 2030” strategy. The aim is to actively promote innovation, create new networks for collaboration and further develop the city’s digital transformation.

    By promoting these six projects, Winterthur is demonstrating how modern, sustainable urban development can be achieved through creative approaches and the targeted use of technology.

  • Efficient cooling for data centres and more

    Efficient cooling for data centres and more

    Until now, the use of ionic wind was limited as the air flow was too weak. The company has now developed new needle electrodes and optimised the housing shape according to the Coandă effect in order to efficiently increase the air flow. This combination allows up to three times the air speed with reduced energy requirements.

    Wide range of applications
    In addition to cooling data centres, the start-up sees great potential in other industries, such as drying systems and air purification processes. The technology enables air movement with minimal pressure difference and could replace conventional fans in the long term.

    On the way to market maturity
    The start-up has already received several awards and is supported by Venture Kick, the Gerbert Rüf Foundation and the Swiss National Science Foundation. While the company is pressing ahead with its own production set-up, it is also looking into a licence model. The technology could make a significant contribution to reducing energy consumption in various sectors.

  • Online tool for climate-neutral industrial processes

    Online tool for climate-neutral industrial processes

    Industry is facing the challenge of converting its processes from fossil fuels to renewable energies. High-temperature heat pumps offer an energy-efficient solution for temperature ranges from 100 to 200°C in particular. They can not only provide process heat, but also generate cooling at the same time, which makes them particularly attractive for many branches of industry.

    Interactive technology map for companies
    In the research project “Identification of industrial heat pumps for process heat”, Fraunhofer ISE has developed an online tool that provides companies with targeted support in selecting the right heat pump technology.

    The tool offers

    • Visualisation of the available heat pump technologies in the temperature range and output
    • Allocation of heat pumps to specific industrial processes (e.g. cleaning, drying, cooling)
    • Interactive retrieval options for process temperatures in various industries
    • Detailed fact sheets on circulation processes, compressor technologies and refrigerants

    A contribution to climate-neutral industry
    The online tool is part of the Fraunhofer research topic “Climate-neutral industry”, which supports companies on their way to a CO₂-neutral energy supply.

    This includes:

    • Optimisation of potential energy savings
    • Utilisation of industrial waste heat
    • Integration of renewable energies (e.g. photovoltaics for in-house power supply)
    • Storage solutions for heating, cooling and electricity

    Special attention is also paid to the treatment of industrial waste water, which not only contains waste heat but often also valuable residual materials such as metals or acids. These can be efficiently recycled using modern recovery technologies.

    Participate and contribute data
    The data pool of the online tool is constantly being expanded. Manufacturers of heat pumps and industrial companies can get in touch with Fraunhofer ISE to integrate their data into the platform and thus drive development forward.

    With this new digital solution, Fraunhofer ISE offers companies an effective tool for decarbonising industrial processes and increasing energy efficiency – a decisive step on the way to climate-neutral production.

  • Digital property platform receives growth capital

    Digital property platform receives growth capital

    According to a press release, the Zurich-based real estate company Properti has secured Series A financing totalling 1.85 million Swiss francs. The company, which specialises in digital real estate transactions, plans to use the fresh capital to expand its market position. Properti intends to expand its digital platform Propchain. The tool allows various functions to be integrated into one interface. This should offer both owners and users equal advantages.

    “The market is certainly challenging for young companies like Properti. Nevertheless, Properti has achieved considerable success even in a volatile economic environment,” said Levent Künzi, CEO of Properti, in the press release. “With an open growth strategy, we are working closely with partners to further expand our end-to-end platform. Our team is characterised by a game changer mentality that enables us to consistently realise Properti’s vision.”

  • New measurement technology detects corrosion in reinforced concrete without intervention

    New measurement technology detects corrosion in reinforced concrete without intervention

    Retaining walls, tunnels and bridges made of reinforced concrete characterise the Swiss cityscape and infrastructure. However, many of these structures are already several decades old – and chemical changes in the concrete affect the steel used. If the reinforcing steel begins to rust, the structure loses stability. The damage is particularly problematic in inaccessible places where conventional testing methods fail.

    Electrochemical measurements as a new solution
    Until now, engineers have had to break open parts of the concrete to check for corrosion damage. A time-consuming and often inadequate procedure. Talpa has developed a new method that works via drainage pipes. A special probe is inserted into the pipe and uses electrochemical signals to measure the likelihood of corrosion in the surrounding reinforced concrete.

    “This has never been done before,” explains Lukas Bircher, one of the developers. “Previously, you had to remove entire concrete surfaces to find damage and could still easily miss a critical area.” With the new technology, entire sections of wall can now be systematically tested without destruction or costly construction work.

    Measurements during operation – without a construction site
    The method has already been successfully tested, including on a 200 metre-long retaining wall in Zurich-Höngg. The principle is a probe that is inserted into the drainage pipe and fixed in place with inflatable seals. The system then directs water into the measuring area, creating a conductive connection between the electrodes of the probe and the steel in the concrete. Based on the recorded electrical signals, the team can recognise whether and to what extent corrosion is present.

    A new measurement is taken every 25 centimetres to record the condition of the entire section of wall. “This allows us to specifically identify those areas that actually pose a risk,” says Bircher. “This not only saves time, but also high costs for unnecessary interventions.”

    50 years after the construction boom – the need for renovation is growing
    Many of the reinforced concrete structures affected today date from the boom period between 1960 and 1980. Retaining walls from the 1970s in particular often contain cavities that favour corrosion. Previously, damage had to be identified by means of time-consuming spot checks, with a high risk of overlooking critical areas. The new method offers a comprehensive and reliable analysis for the first time.

    From research to start-up Talpa-Inspection
    The technology has such great potential that Bircher founds the start-up Talpa-Inspection together with two colleagues. The name “Talpa”, Latin for “mole”, symbolises the innovative way of making deeply hidden damage visible. Supported by an ETH Pioneer Fellowship, the team is further developing the technology and preparing to enter the market.

    Future prospects, automation and scaling
    The measurement is currently still partly manual, but the team is already working on an automated version. The aim is to make the probe more robust and further accelerate the measurement process. Demand is high. In Switzerland alone, there are over 1,000 kilometres of potentially affected reinforced concrete structures.

    “Our method offers a real opportunity to extend the service life of existing structures,” says Bircher. “We hope that it will soon establish itself as a standard procedure for structural diagnostics.”

  • AI accelerates perovskite solar cells for the mass market

    AI accelerates perovskite solar cells for the mass market

    Perovskite solar cells already achieve efficiencies of over 26% and are light, flexible and inexpensive to produce. They are considered a promising alternative to conventional silicon modules. However, challenges such as long-term stability and scalability still stand in the way of industrial utilisation.

    AI as the key to optimising production
    The Karlsruhe Institute of Technology (KIT) is researching how machine learning can improve the manufacturing process for perovskite cells. Deep learning models analyse material properties in real time and optimise the parameters for maximum efficiency.

    Detecting errors before they occur
    AI uses in-situ imaging techniques to monitor thin-film formation and detect errors at an early stage. This allows process deviations to be corrected immediately and expensive rejects to be avoided.

    Simulations for maximum efficiency
    AI-supported simulations allow production conditions to be precisely adapted. The control of the vacuum quenching time in particular plays a decisive role. AI optimises this process to ensure the best possible material structure.

    The path to market maturity
    The KIT study shows that AI is a key driver for the further development of perovskite photovoltaics. The technology could revolutionise the solar energy market and become industrially usable faster than ever with AI.

  • Efficient letting thanks to AI

    Efficient letting thanks to AI

    The Swiss real estate sector accounts for around 20 percent of GDP, but digitalisation is lagging behind. SMG Real Estate is setting new standards with an innovation offensive. Platforms such as ImmoScout24, Homegate and Flatfox now offer fully digital solutions that create listings faster, simplify viewings and optimise the entire rental process.

    A central component is the Flatfox Messenger, which is integrated into the aforementioned platforms. This WhatsApp-like communication solution bundles all exchanges between prospective tenants and landlords. Viewing appointments, applications and acceptances can be managed seamlessly – without the usual flood of emails.

    AI-supported adverts for maximum efficiency
    SMG Real Estate also relies on automation when creating adverts. Agents and property managers can generate a complete listing with just a few clicks. By entering the property address, all relevant data such as size and features are automatically added and an AI-supported text is created.

    This innovation saves an average of 14 minutes per advert. Extrapolated to the large number of daily adverts, this results in considerable time and cost savings. This leaves more time for the core business – direct contact with interested parties.

    Future-proof solutions for the sector
    The company wants to make the Swiss property sector fit for the digital future. The new technologies not only offer convenience and efficiency, but also contribute to the professionalisation and competitiveness of the sector.

    With this initiative, SMG Real Estate is proving that digital innovations are changing the property market for the long term and creating real added value for everyone involved.

  • Graubünden supports digital innovation in timber construction

    Graubünden supports digital innovation in timber construction

    The canton of Graubünden is promoting the digital transformation of the construction process in prefabricated timber construction. Specifically, the cantonal government is providing up to CHF 666,131 for the SmartFlow System project from QUADRIN AG. The QUADRIN timber construction system, which belongs to Uffer in Surses, enables the construction of customised timber buildings from modular components.

    Uffer wants to digitalise QUADRIN in order to “meet the growing demand for increasingly large-volume temporary buildings”, explains the cantonal government in a press release on its funding decision. The total investment costs for SmartFlow System are estimated at around CHF 1.61 million.

    In the SmartFlow System project, Uffer wants to combine existing digitalised elements of its modular system, such as the planning of components and the control of production machines, and add further digital elements. To this end, the company plans to introduce digital tools for process control, quality assurance and increased efficiency. The use of mixed reality, which combines natural and artificial perception, is also planned to minimise errors in the construction process.

    According to the government of the canton of Graubünden, the project “brings an innovative, sustainable approach to the construction industry”, which could serve as a model for future process developments and motivate other members of the industry to “launch similar initiatives”. The funds for QUADRIN AG are being provided in accordance with the law to promote digital transformation in Graubünden.

  • Bio-inspired “Solar Gate” regulates buildings in a climate-neutral way

    Bio-inspired “Solar Gate” regulates buildings in a climate-neutral way

    In nature, plant structures adapt intelligently to their environment, and these principles are now also being utilised in architecture. Researchers at the Universities of Freiburg and Stuttgart have developed the “Solar Gate”, a façade system that reacts to changes in humidity and temperature without the need for mechanical or electrical components.

    This adaptive shading system was installed on the livMatS Biomimetic Shell, a research building at the University of Freiburg. It is based on hygromorphic materials that open and close independently like pine cones. As a result, the system lets sunlight into the building in winter for natural heating and protects against excessive heat in summer – completely energy self-sufficient.

    4D printing enables intelligent façades
    The secret behind the innovation lies in the combination of bio-based cellulose materials and state-of-the-art 4D printing technology. Cellulose, a renewable and abundant raw material, reacts to fluctuations in humidity by expanding or contracting. The research team has utilised this natural property to develop a two-layer structure that automatically adapts depending on the weather.

    The elements produced using 4D printing curl up and open in high humidity, while they flatten and close in dry conditions. The “Solar Gate” thus offers a completely new way of regulating buildings in a climate-neutral way.

    Energy-efficient construction of the future
    The building sector is responsible for a large proportion of global CO₂ emissions. Buildings can significantly reduce their energy consumption for heating, cooling and ventilation using intelligent, bio-based materials. The “Solar Gate” shows how natural principles and modern manufacturing technologies can lead to sustainable architectural solutions.

    With this innovative shading system, the researchers prove that sustainable construction methods can not only be environmentally friendly, but also efficient and cost-effective. The future of architecture could therefore be a great deal closer to nature.

  • AI solution optimises solar systems

    AI solution optimises solar systems

    SmartHelio has developed a predictive diagnostics solution for photovoltaic systems based on artificial intelligence (AI) and launched it on the market in early 2024. It bears the name Autopilot. Since then, this platform for controlling, operating and maintaining solar power plants has optimised the efficiency of 218 such systems with more than 2 gigawatt peak, according to the manufacturer. Their output has been increased by an average of 8 per cent.

    According to the information provided, the plug-in system with more than 50 proprietary algorithms delivers 95 per cent accuracy from day one in detecting faults before they affect performance. According to SmartHelio, the one-time diagnostics process identifies remediable energy losses of up to 7 per cent on average. Data quality is improved by over 98 per cent.

    The service life is increased by eight years, solar energy production by 10 per cent and the return on investment by up to 600 per cent. Above all, Autopilot significantly reduces diagnosis times, says CEO and founder Govinda Upadhyay: “From 358 hours to just 3 hours – the technology is helping us to redefine diagnosis and save solar plant operators time.” The company plans to expand the areas of application to battery storage and energy trading, thereby driving forward the energy transition worldwide.

    SmartHelio is a spin-off of the Swiss Federal Institute of Technology Lausanne based in the canton of Vaud and operates a branch office in Uttar Pradesh, India. The company, which was founded in 2019, will be presenting its technology at the World Future Energy Summitfrom 14 to 16 January 2025. It will be one of eight exhibitors in the SWISS Pavilion as part of Abu Dhabi Sustainability Week.

  • Ternary data storage

    Ternary data storage

    For decades, data storage has been based on binary code, which only recognises two states: “0” and “1”. The new technology brings a ground-breaking change by introducing a third state “2”. This achieves a fourfold increase in storage density. Inspired by cuneiform writing, the new polymer uses tiny indentations as memory points: no indentation stands for “0”, a shallow indentation for “1” and a deeper indentation for “2”.

    Precision and efficiency thanks to modern materials
    The polymer, consisting of sulphur and dicyclopentadiene, is processed with atomic precision. A microscopically small tip creates the dents, replacing conventional methods such as laser beams. This offers numerous advantages.

    • Energy efficiency: Mechanical processing requires no heat.
    • Reusability: Data can be erased and the material rewritten by heating.
    • Durability: The polymer can withstand numerous read-write-erase cycles.

    Economical and sustainable
    The main components of the polymer are cost-effective and environmentally friendly, unlike existing storage technologies that rely on rare earths and energy-intensive processes. The new material offers a sustainable alternative that meets the increasing demands of the digital age.

    Far-reaching effects
    The introduction of ternary code could push the boundaries of existing storage technologies. Major technology companies such as IBM and Intel are already showing interest in the new technology. The quadruple storage density, combined with low energy consumption and sustainability, makes this development a key to the future of big data and artificial intelligence.

  • Experienced executive takes over management of digital real estate marketplace

    Experienced executive takes over management of digital real estate marketplace

    Myriam Reinle is to become the new CEO of Houzy, according to a press release. With her track record in the proptech and fintech industry, Reinle is the ideal person to lead the company, which merged with Devis.ch in May 2024, into a new phase of growth.

    According to the company, Reinle brings more than 20 years of experience in building digital marketplaces, managing tech start-ups and a comprehensive understanding of the needs of homeowners. As Head of Marketing at Homegate for more than a decade, she played a key role in “establishing the company as a leading player in the Swiss real estate market”, according to the statement.

    She is taking over the management of Houzy as an experienced leader “who combines entrepreneurial thinking, expertise in digital marketplaces and the management of start-ups”, according to Christian Mähr, Chairman of the Board of Directors.

    Reinle will succeed Florian Rüegg, one of the founders of the proptech company. He is moving to the position of CTO/COO. Since 2017, Houzy has been offering a platform for homeowners to find property valuations, renovation calculators, demand checks and the option of finding tradespeople and estate agents.

  • Bird-inspired drone Raven

    Bird-inspired drone Raven

    The Raven drone, developed at EPFL’s Laboratory for Intelligent Systems under the direction of Dario Floreano, uses the movement capabilities of birds such as crows as a model. It combines ground mobility and flight capability in one system. Thanks to its bird-like legs, it overcomes obstacles effortlessly and even takes off from uneven ground.

    The specially developed legs weigh just 0.62 kilograms and combine lightweight materials, motors and springs that imitate tendons and muscles. A special joint structure allows Raven to run, hop and jump with stability, while the design focuses on lightweight construction and efficient energy distribution.

    Jump start for maximum efficiency
    An outstanding feature of the drone is the jump start. This method makes optimum use of kinetic and potential energy and enables Raven to overcome obstacles up to 26 centimetres high. The experiments showed that the jump is the most efficient launch method, especially in difficult or restricted terrain.

    Wide range of applications
    Raven’s unique capabilities make her a valuable tool for a wide range of applications. During natural disasters such as earthquakes or floods, the drone reaches areas that are difficult to access and delivers vital relief supplies. In narrow alleyways or destroyed infrastructure, Raven can flexibly transport medicines and other goods. Raven enables the monitoring of bridges, pipelines or energy plants in remote regions and delivers precise data both from the ground and from the air.

    Collaboration and research
    The EPFL team worked closely with the BioRobotics Lab and the Neuromechanics Lab at the University of California. Together, they analyzed the biomechanical properties of birds and transferred their efficiency to Raven. The biggest challenge was to integrate the complex movements of nature into a technical system while balancing weight, stability and functionality.

    Future potential
    Raven is to be further optimized in the future. The landing capabilities, energy efficiency and adaptability to different surfaces are the focus of research. In the long term, the technology could lay the foundation for multimodal robots that can operate both on the ground and in the air.

    With the Raven drone, the EPFL team is opening up new possibilities for rescue missions, inspections and logistics. The combination of bird mobility and state-of-the-art robotics marks a decisive step in the development of versatile drone technologies.

  • Future-proof network infrastructure for buildings

    Future-proof network infrastructure for buildings

    Reichle & De-Massari(R&M) is tackling the expansion of data networks for “Next Generation WiFi”, as detailed in a press release. Accordingly, the global cabling specialist has added a hybrid concept to its range of cabling systems.

    The solution from R&M combines the existing LAN connection with fiber optics for data and power transmission. The higher transmission capacities mean that additional network infrastructures can be implemented.

    The aim is to achieve nationwide availability of WiFi 7 and 5G technologies. Although these technologies multiply transmission rates, they exceed the capacity of existing copper-based LAN cabling. “Anyone who wants to use WiFi 7 and 5G in buildings in the near future needs a practicable and future-proof cabling solution,” it says.

    According to the press release, the hybrid solution based on copper cabling is integrated into the modified building, floor and ceiling cabling (digital ceiling) and thus networks the next-generation access points via fiber optics. “At the same time, the antennas receive their power via the LAN cabling, which eliminates the need for an additional separate power supply,” it says.

  • New app makes measuring and installation planning easier

    New app makes measuring and installation planning easier

    Aadorf-based sun shading manufacturer Griesser has developed a digital platform that can be used to optimize the entire ordering process for customers. According to a press release, potential customers can use the MyGriesser OnSite app with automated processes to significantly reduce the time and effort involved in ordering.

    The app guides the customer step by step through the measuring process. At the same time, a suitable sun shading system can be selected from a digital catalog. Further details about the installation location and installation are added to the app, as are corresponding image or video files. The measurements are transferred to an end device via Bluetooth and the entire data record is synchronized with the MyGriesser platform.

    The app was developed and tested together with users – specialist partners on site. “We wanted to create an efficient, customer-oriented and, in particular, practical digital solution. An important success factor was to involve our specialist partners and our own sales unit, i.e. the stakeholder groups that are particularly close to our customers, right from the start,” Alexander Wimmer, Managing Director of the Griesser business unit, is quoted as saying in the press release. “With our innovative Griesser app, we are revolutionizing everyday life on construction sites and at the same time creating enormous added value for our specialist partners and our direct sales. In addition to massive time savings and fast, expert advice on site, the app creates a better overview and offers an ideal solution for responding even better to individual customer needs.”

  • Revolutionary technology for the computer world

    Revolutionary technology for the computer world

    The increasing complexity of neural networks poses enormous challenges for conventional computer technologies. Electronic hardware is increasingly reaching its limits. This is where MIT’s revolutionary development comes in. A photonic processor that uses light instead of electrons for calculations and heralds a new era of high-speed processing.

    At the heart of the system is a fully integrated optical neural network that combines linear and non-linear operations. While linear calculations are performed using light-based matrix multiplications, the new technology overcomes the previous hurdle of non-linear operations. This was solved by special non-linear optical functional units that efficiently combine optics and electronics.

    Speed and efficiency in the nanosecond range
    The photonic processor processes classification tasks in less than half a nanosecond. A speed that sets new standards. The technology significantly reduces latency times and is extremely energy-efficient. The optical signals are not converted into electrical currents until the final output. This combination enables impressive accuracy values of over 96 per cent during training and more than 92 per cent during inference.

    Scalable integration for practical applications
    A key advantage of photonic chips is their scalability. They can be integrated into existing systems using commercial manufacturing processes. MIT is thus not only opening up new perspectives for AI applications, but also for energy-intensive areas such as big data and data centres. MIT’s photonic AI chips mark a technological breakthrough in the world of computing. Using light as a computing medium enables ultra-fast, energy-efficient and scalable AI calculations – a step into a new future of data processing.

  • Into the future with wood and clay

    Into the future with wood and clay

    Wood and clay, two proven building materials, are at the centre of the “Think Earth – Regenerative Building” project. Under the leadership of ETH Zurich and in collaboration with Empa and other universities and industrial partners, modern construction techniques are being developed to reduce the environmental impact of the building industry. While wood provides load-bearing capacity and rigidity, clay provides additional mass that contributes to thermal regulation, fire safety and vibration damping.

    Reusable wood connections strengthen the circular economy
    In order to use wood sustainably, its reusability must be increased. Currently, it is only 10 per cent. The project aims to increase this figure to 90 per cent by developing efficient, flexible wood joints. Researchers at Empa and ETH Zurich are working on methods for the simple dismantling of timber structures and developing digital tools that promote the reuse of timber components.

    Crack-free clay construction methods using green additives
    Clay is available in almost unlimited quantities and has an excellent carbon footprint. However, shrinkage during drying is a common problem, resulting in cracks. Researchers at Empa and ETH Zurich are investigating bio-based and biodegradable additives that prevent shrinkage without impairing recyclability. These innovative additives are being tested on a large scale in collaboration with BASF Schweiz AG and Eberhard Bau AG to enable the use of clay in building construction.

  • How to make wood glow

    How to make wood glow

    Empa researchers in St. Gallen have succeeded in endowing wood with new properties. Their latest breakthrough – luminous wood. This material is created by treating wood samples with the Hallimasch fungus, which emits a green light due to the natural substance luciferin.

    From natural phenomenon to laboratory success
    Luminescent wood is not a new phenomenon; Aristotle described the green glow of wood over 2,400 years ago. However, biotechnology has now succeeded for the first time in reproducing this process in the laboratory under controlled conditions. The decomposition of lignin preserves the tensile strength of the wood, while the fungal filaments produce the glow.

    Sustainability and creativity in perfect symbiosis
    This biohybrid material opens up new possibilities. In addition to technical applications, furniture, jewellery or other design elements could also be realised with the luminous wood. At the same time, this innovative use of hardwood contributes to sustainable cascade utilisation and reduces the energy recovery of the wood.

    Optimising the luminosity
    After three months of incubation, the luminous wood develops its maximum brightness. The process, which takes place under humid conditions, currently lasts around ten days. Researchers are working on further improving the luminosity and duration in order to make the material even more versatile in the future.

    A pioneering solution
    The luminous wood shows how natural resources can be transformed into new, sustainable applications using innovative technologies. The symbiosis of wood and fungus is a fascinating example of how research can contribute to solving ecological and economic challenges.

  • Drone research in the modular innovation building

    Drone research in the modular innovation building

    The new DroneHub in NEST, the modular research and innovation building of Empa and the ETH Domain’s aquatic research institute(Eawag), has been officially opened. According to a press release, it offers a “unique environment” in which researchers can test and further develop innovative drones and robot technologies.

    The DroneHub took shape in collaboration with Imperial College London. It is headed by Mirko Kovac, head of Empa’s Sustainability Robotics research laboratory and the two Imperial College facilities, Aerial Robotics Lab and Imperial Centre for Infrastructure Robotics Ecosystems. In future, the DroneHub will support Kovac’s new joint professorship in Sustainability Robotics at Empa and the Swiss Federal Institute of Technology in Lausanne.

    Three zones have been set up at NEST: Drones can carry out repair work on an exterior wall in flight and under real weather conditions using 3D printing. The biosphere, located in a kind of aviary and therefore also outdoors, enables robots to interact independently with nature, collect valuable environmental data with their sensors and test new biodegradable materials at the same time.

    And finally, the modular facade of the DroneHub shows how robots can be integrated into buildings and act as their immune system, especially to ward off danger. “If we investigate what symbiotic integration can really look like,” says Kovac in an Empa video about the DroneHub, “then life with drones and robots will also show how they can be integrated into our lives and how society can change.”

  • DroneHub in NEST

    DroneHub in NEST

    The “DroneHub” at Empa’s NEST provides a platform for the development of pioneering technologies that revolutionise the interaction of drones and robots with the natural and built environment. The focus is on drones that can perform autonomous tasks such as inspections, repairs and data collection. The aim is to reduce environmental pollution and promote climate protection.

    Research at the cutting edge
    The “DroneHub” has three central test environments that simulate real-life conditions. Additive manufacturing from the air enables drones to carry out infrastructure repairs in a vertical area with 3D printing from the air, defying wind and weather. In the biosphere, researchers are testing robots that move around in nature, collect data and use biodegradable materials that decompose after use. In building façades, a modular façade serves as a testing ground to explore how drones can be integrated into buildings to ensure maintenance and safety.

    Autonomous systems as an environmental immune system
    “Our vision is to establish drones as a kind of immune system for the environment,” explains Mirko Kovac, head of the project. These robots are designed to perform precise tasks, such as repairing buildings or monitoring ecosystems, while minimising both costs and risks.

    Collaboration for sustainable solutions
    The development of the “DroneHub” was initiated by Empa in collaboration with Imperial College London. This collaboration enables the exchange of knowledge and technologies to effectively tackle global environmental challenges.

    Sustainable technologies for global goals
    The “DroneHub” plays a key role in the development of autonomous, sustainable technologies that can contribute to global climate goals. Practical tests and interdisciplinary approaches create an interface between technology, the environment and everyday life.

  • PropTech Innovation Challenge 2024

    PropTech Innovation Challenge 2024

    On 19 November 2024, the Swiss start-up was named the winner of the PropTech Innovation Challenge 2024 by the Urban Land Institute (ULI) at the C Change Summit in Barcelona. The competition, which is aimed at leading innovators from the property and technology world, was held this year under the motto of reducing Scope 3 emissions. These emissions, which are generated along the entire value chain, are considered one of the biggest challenges facing the property industry.

    The challenge initiated by the Young Leaders was looking for pioneering solutions that can be implemented regionally, are scalable and sustainable. Particular attention was paid to retrofitting, the circular economy and the integration of ESG platforms.

    AI meets decarbonisation
    The ETH spin-off presented an AI-supported SaaS solution that supports asset managers, investors and consultants in the decarbonisation of building portfolios. The software creates precise, time-coordinated and cost-optimised renovation plans for property portfolios. This enables the industry to comply with strict net-zero targets without having to resort to inefficient, manual approaches.

    The expert jury particularly praised the scalability and efficiency of the solution, which makes it possible to implement complex investment and renovation strategies with minimal effort. The company is thus setting new standards for the reduction of carbon emissions in the property sector.

    A look into the future of the industry
    The PropTech Innovation Challenge shows how important innovative technologies are for the future of the property industry. Solutions play a key role in achieving sustainability goals and leading the industry towards a more climate-friendly future. With its combination of high-tech and practical applications, the company offers a tool that not only increases efficiency, but also strengthens collaboration between stakeholders.

    The success at the PropTech Innovation Challenge 2024 is a clear signal of the relevance of technological innovations in the property sector. The start-up’s AI-supported solution underlines how sustainability and profitability can go hand in hand. The industry is facing a paradigm shift and the company shows how this can be successfully shaped.

  • New initiatives for sustainable digitalisation and the economy

    New initiatives for sustainable digitalisation and the economy

    The SMG Swiss Marketplace Group has presented a new sustainability manifesto. According to a press release, the company intends to use the document to emphasise its commitment to sustainable business practices. The manifesto contains four central pillars that are intended to describe SMG’s future framework for action.

    These include integrity through good corporate governance and transparency, protecting the digital future through advanced cybersecurity and data protection, empowering employees by promoting an inclusive working environment and positive engagement through environmental and social initiatives.

    As part of its new sustainability strategy, SMG is committed to various initiatives, such as promoting electromobility, reducing carbon emissions in various business areas and improving energy efficiency in its data centres.

    The company sees its online marketplace Ricardo as an important example. “For 25 years, Ricardo has offered a real alternative for responsible consumption,” said Christoph Tonini, CEO of SMG, in the press release. “Thanks to its circular economy approach, which promotes the reuse of products, Ricardo is a key driver of sustainable consumer behaviour in Switzerland. Sustainability has been part of our DNA since the beginning and we are determined to extend this approach to our entire group.”

    The SMG Swiss Marketplace Group brings together the digital marketplaces of TX Group, Ringier and Mobiliar. These focus on property, automotive and finance, among others.

  • New principles for data exchange in the construction process

    New principles for data exchange in the construction process

    For over three decades, SIA 451 has formed the basis for standardised data exchange in the construction industry. Originally conceived as a guideline for bills of quantities, it defined how data fields should be structured and exchanged as early as 1992. Supplemented by modern requirements, such as the integration of images and memos, the standard has continuously adapted to the needs of the industry. Nevertheless, a fundamental revision was long overdue.

    New content and objectives of the revision
    The revised SIA 451 not only defines the processes and terms of information and data exchange, but also sets clear requirements for delivery objects, IT infrastructures and quality assurance. The introduction of a standardised information management process regulates the following aspects:

    Clear definition of interfaces and data structures
    Quality assurance:
    Standards for the testing and certification of software solutions.

    IT infrastructure:
    Requirements for technology and expertise of the players.

    These innovations ensure that the standard will continue to serve as the basis for advanced solutions and standards in the construction industry in the future.

    Relevance for construction practice
    The importance of SIA 451 for the construction process can hardly be overestimated. It is not only the basis for numerous software solutions, but also an essential component of communication between all stakeholders – from planning and procurement to the operation and maintenance of buildings. By promoting open standards, it creates transparency and access for all market participants. This strengthens collaboration and enables technological innovations to be integrated efficiently.

    A standard for the future
    The revision of SIA 451 represents a decisive step towards the digital transformation of the construction and planning industry. The revised content sets new standards for data exchange and creates a solid basis for future developments. SIA 451 thus remains an indispensable tool for everyone working in the construction industry.

  • Digital voice assistant revolutionises documentation for construction projects

    Digital voice assistant revolutionises documentation for construction projects

    Benetics has integrated a digital voice assistant into its digital application for the coordination of construction projects. The assistant, which is based on ChatGPT, can create construction reports, protocols and measurements using free voice input in more than 30 languages and dialects and transmit them to the office in real time, the Zurich-based proptech company explains in a press release. According to the press release, the new function is now available in the Benetics app. There are no additional costs for existing subscriptions.

    “Tradespeople want to build – and not waste time on paperwork,” says Ferdinand Metzler, CEO of Benetics AG, in the press release. For them, documentation becomes a minor matter with the new voice assistant. The digital assistant also “significantly simplifies work for everyone involved in the project and enables companies to generate more revenue thanks to seamless documentation”.

    The Zurich-based proptech was founded in 2022 by Metzler together with Aaron Shon and Johan Tibell. Its app, which was launched in October 2023, is already being used by 50 construction companies in Europe, according to the press release. Benetics worked with 15 tradespeople from various sectors to develop the digital voice assistant that has now been integrated into the app.

  • onOffice integrates Residentures platform for real estate auctions

    onOffice integrates Residentures platform for real estate auctions

    Residenture AG has announced its collaboration with onOffice GmbH. In a statement, the Zurich-based start-up Residenture, founded in 2022, describes onOffice as the leading CRM (Customer Relationship Management) provider for real estate professionals in Europe and the announcement of this cooperation as its most important to date. OnOffice is headquartered in the German city of Aachen and has offices in Baar ZG, London, Zagreb, Ljubljana, Vienna, Turin and Barcelona.

    The cooperation between the two companies relates to the seamless integration of Residenture’s digital auction platform into onOffice’s CRM. This enables estate agents to “market properties effortlessly, attract more prospective buyers and sell faster – all without having to learn a new tool”.

    Property owners are protected by the minimum price function. The transparent auction process allows them to follow the bids in real time. At the same time, the competitive nature of the auctions often leads to higher final sale prices.

    Buyers should also benefit from this transparency. The digital platform makes participation simple, secure and accessible from anywhere.

    Residenture has also announced that it is expanding throughout Germany and into other EU countries thanks to a recent six-figure investment in order to “change the real estate market across the continent” for both buyers and sellers.

  • Automated portfolio valuation tool revolutionises property analysis

    Automated portfolio valuation tool revolutionises property analysis

    The new version of the SSREI portfolio valuation tool is characterised by significant automation that simplifies and speeds up the valuation process. Thanks to the partnership with SFGM, building and location data can be retrieved directly via the EGID number, which minimises manual input. This provides owners with important information on monument protection, contaminated sites, noise pollution, radon risks, energy supply and public transport connections.

    Automated indicator evaluation based on master data
    The optimised evaluation tool enables the automated evaluation of 23 of the 36 sustainability indicators. The combination of publicly available information and building-specific data enables a precise assessment of the potential. Information such as year of construction and renovation date can be used to derive the building envelope and noise protection values – supported by the relevant SIA standards.

    Further optimisations and interface connection
    Newly developed tools help to determine usage density and utilisation based on statistical data and provide a sound basis for decision-making. The tool also offers interfaces to external asset and portfolio management systems, which facilitates integration into existing processes and makes data analysis and evaluation even more efficient.

    The portfolio valuation tool provides property owners with a valuable basis for the sustainable development of their portfolios and makes an important contribution to value retention and regulatory protection. It supports investors in future-proofing their property portfolios and meeting the requirements of sustainable transformation.

  • New ultra-thin film for interference-free 5G and 6G

    New ultra-thin film for interference-free 5G and 6G

    With the new film made from a special composite material, KIMS is demonstrating how electromagnetic interference in communication systems can be effectively minimised. The film, which is only 0.5 mm thick, absorbs more than 99% of electromagnetic waves in frequency ranges such as 5G, 6G and WiFi. This shielding technology avoids disruptive reflections and offers unrivalled freedom from interference. An advantage that could further optimise the use of modern communication devices and radar systems.

    Absorption instead of reflection
    Conventional shielding materials often rely on reflection, but this is only partially effective. The new type of film, on the other hand, absorbs electromagnetic waves in a targeted manner and thus ensures a high level of interference immunity. This approach prevents waves from bouncing back and interfering with neighbouring systems. The technology is based on a unique crystal structure and a magnetic composite layer that precisely filters frequencies and ensures maximum absorption.

    Flexible and dimensionally stable for a wide range of applications
    The developed film shows high flexibility and dimensional stability, even after thousands of folds. These properties make it ideal for flexible and portable devices such as smartphones and electronics. It also offers reliable shielding and high durability for roll-up screens and other flexible technologies. The film remains dimensionally stable and functional even in demanding applications. Ideal for use in modern, portable devices.

    Optimisation through carbon nanotubes
    A thin carbon nanotube film on the back of the film further increases the shielding performance. With an absorption coefficient of 99.9%, the film ensures that electromagnetic waves do not penetrate to the outside and that interference in various mobile and autonomous applications is minimised. This innovative combination of materials creates reliable shielding, which is particularly in demand in areas with high sensitivity to electromagnetic interference.

    With its high absorption and flexibility, the new KIMS film offers an ideal solution for minimising interference in modern communication technology. It enables better freedom from interference in 5G and 6G networks and could bring ground-breaking improvements in autonomous systems and portable devices – a promising development for future digital infrastructure.