immo!nvest – Die Plattform für Standorte und Immobilien

Tag: Sensoren

  • CHF 2 million for the development of energy-saving lighting

    CHF 2 million for the development of energy-saving lighting

    LEDCity, a Zurich-based start-up in the cleantech sector, has secured 2 million Swiss francs as part of a further financing round. According to a press release, the company was able to secure a total of 5 million Swiss francs in funding within a period of twelve months. The secured Series A financing will enable LEDCity to further consolidate its role as a leading innovator in the cleantech sector, according to the press release. “With the new funding from our investors, we are well positioned to respond to growing demand and advance our mission to reduce dependence on fossil fuels by redefining lighting,” said Patrik Deuss, CEO and founder of LEDCity, in the press release.

    LEDCity has developed a lighting solution that aims to reduce electricity consumption by up to 80 per cent. The company wants to use it to replace traditional motion detectors in commercial buildings. The innovative system controls the lighting on site using sensors and algorithms directly in the light source. This means that each area of a building can be illuminated exactly as required. With the additional funding, the company aims to meet the demand for these intelligent and energy-efficient systems on the national and international market, according to the press release.

  • Locatee is taken over by Tango

    Locatee is taken over by Tango

    Locatee will be part of Tango in future. Founded in 2014, the Zurich-based company has developed a holistic analysis for the optimal utilisation of office space. To do this, Locatee combines data from sensors with information from other sources such as Wi-Fi and wired networks. The solution provides companies with a complete picture of the utilisation of their workstations. This allows space to be better utilised and costs to be saved.

    Tango from Dallas wants to combine the Locatee solution with its cloud-based software for property management and building maintenance. On average, space utilisation is only 40 percent, Pranav Tyagi is quoted as saying in a press release. “Organisations are actively seeking to better understand occupancy,” says the CEO of Tango.

    The Locatee site in Zurich will now become Tango’s European headquarters. “We look forward to combining occupancy data at the building, floor and zone level with Tango’s industry-leading space management and reservation solutions to provide our customers with a complete picture of planned, projected and actual occupancy,” Myriam Locher, Co-CEO of Locatee, is quoted as saying.

    Benedikt Köppel takes a similar view. “Tango is a leader in the application of artificial intelligence and machine learning in the built environment,” the Locatee founder and co-CEO is quoted as saying. “Locatee adds a comprehensive occupancy dataset to the vast amounts of data that Tango already analyses, providing insights that benefit the entire property lifecycle, including portfolio strategy, space optimisation, maintenance and sustainability.”

    Tango serves over 500 clients in 140 countries.

  • Until the chemistry is right

    Until the chemistry is right

    The fact that she has mastered her field from A to Z is, as she points out, also thanks to know-how built up by colleagues at Empa – such as engineer Gabor Kovac. He pushed the production of stack actuators with expandable silicone discs for many years and developed them to operational maturity with his partner Lukas Düring until their spin-off “CTsystems” was recently taken over by the Daetwyler Group.

    “The devices for measuring how actuators stretch in different electric fields were developed by them,” Opris says, “we were early on this topic, and that helped me enormously.” Unlike her colleagues, however, the chemist is working less on the technology for printing such components, but one “floor below” – on the synthesis of novel polymers that are suitable as non-conductive layers for stacked transistors, elastic films for power generation and other elements.

    The desired profile: as thin as possible, with the long-term goal of many layers only ten micrometres thick; easily stretchable, sensitive to low current voltage and robust at the same time. And above all: printable, i.e. without solvents for the conductive layers between which the polymers lie. “Solvents can damage the polymer layers. Besides, the material would have to dry for a long time in order not to give off harmful vapours,” explains Opris, “so we try to do without them – with the right chemistry.”

    There are many different requirements that researchers all over the world are dealing with. Suitable compounds that raise hopes are polysiloxanes, which the Empa specialist is also working on. An important advantage of these polymers: they are relatively easy to synthesise; the “backbone” of their strands is very mobile – and they can be specifically manipulated with polar groups, i.e. plus-minus charged molecules.

    Snake-like molecules
    What is difficult for laypeople to understand, Dorina Opris explains with a vivid image: “You can imagine these polysiloxanes like a pot full of snakes that want to move all the time.” The polar groups have a twofold effect on them. On the one hand, they make the molecular snakes more sensitive to electric fields so that they respond to low voltages. On the other hand, they act like a kind of glue between the molecules; this “stiffens” them and thus reduces the important elasticity. It is necessary to fine-tune both effects to achieve maximum success. For a practical application, the transition from the solid to the elastic state at low temperatures is important so that the technology can later be used at room temperature. In addition, such polymer structures still have to be chemically “cross-linked” so that they can become elastic layers – for example by UV light and with the help of so-called end groups: quasi molecular “hats” that the snakes wear at their ends. But in laboratory practice, it has so far proved tricky to reliably provide these polymers with defined end groups. “That annoys me already!” admits Opris with a smile.

    Healthy ambition is needed for the TRANS project, which the chemist herself calls “very, very ambitious”. The team is optimistic because earlier work has already produced encouraging results; for example, a polysiloxane compound that reacted to a voltage of only 300 volts and deformed strongly – an extremely low value. Printing capacitor layers without solvents has also already been achieved. And a doctoral student recently developed a piezo-electric elastomer that, when stretched, shows a significantly higher electrical response than other compounds currently in use.

    Creativity and team spirit for success
    Of course, many more steps are needed to achieve usable successes – and those qualities that have brought Dorina Opris to Empa and ETH Zurich. Not only stamina and the ability to turn failed attempts into progress, but also to create an inspiring environment for employees that allows open debate and also mistakes so that good ideas emerge.

    And above all: optimism. The boss believes that young researchers should be given exciting and challenging projects and then be allowed to work independently so that they remain motivated. Her advice to talented women based on her own biography: “Don’t wait until someone pushes you to do research. You have to be self-motivated and strong, and go for it! And also take a risk sometimes.”

  • How data is changing our cities

    How data is changing our cities

    They know what we buy, who we meet and where we drive or walk. Airbnb, Amazon, DriveNow, Google Maps, Lieferando, Lime and Uber are just a small selection of platforms and services that collect data on mobility and purchasing behavior. With the help of this wealth of data, technology groups are redesigning urban spaces for the optimal use of their services. A phenomenon that can be described by the term platform urbanism. “Technology companies have immense knowledge about urban mobility. They use this know-how in contact with city administrations, for example to create new transport systems,” explains the art and architecture theorist Peter Mörtenböck. He knows: the architecture departments of Alphabet and Amazon are creating the data-supported districts of tomorrow.

    Peter Mörtenböck and his team wanted to know: How do data, the public and urban spaces change each other? Supported by the Austrian Science Fund FWF, the researchers conducted basic artistic research over a period of five years, held conferences, developed exhibitions, published two books and established collaborations. During this project period, more than 100 people were involved in research.

    International artistic research
     The process was international. Knowledge about video surveillance was collected in London. A trip to Tallinn provided insights into e-governance, another to Mumbai about environments that are only rudimentarily shaped by technology groups. The core team visited Silicon Valley several times. The researchers held discussions with architects and employees from Apple, Meta and Alphabet. “In particular, we looked at the campus architecture and the plans for expanding it with new residential areas. These are prototypes for future housing estates,” explains Mörtenböck. The role of patents was also presented. "The Steve Jobs Theater on the Apple campus and the design of the Amazon department stores are just a few examples of patented designs," explains the visual culture professor.

    Artistic research approaches, for example in the form of drawings and animations, helped the researchers to question their own assumptions on topics such as the public nature of data. Creative approaches also have other benefits. “One of our major concerns was to convey how each and every individual is involved in data production. Knowing how the environment is changing insidiously gives you an idea of what data is being collected and what it can do. Artistic research helps to find an interface with the public,” says Mörtenböck. For example, the project team members Lovro Koncar-Gamulin and Christian Frieß developed video installations and animations as visual translations of the research process. Discussions were held with interested parties in Carinthia, Styria and Vorarlberg. Debates were held with international researchers and experts at conferences in Vienna, London and Los Angeles.

  • Sensors save up to 90 percent electricity at bus stops

    Sensors save up to 90 percent electricity at bus stops

    Verkehrsbetriebe Zürich ( VBZ ) and the municipal energy supplier ewz tested the use of new LED lighting at several stops in the first half of 2020. These are built in with motion sensors with which the light can be weakened to a tenth of its strength when nobody is at the stop.

    The tests have shown that power consumption can be reduced significantly. "Viewed across all illuminated bus stops, the average energy saving for LED lights with motion sensors is around 90 percent, with the situation-specific regulation of brightness additionally reducing light emissions," Martin Suter, head of bus stops at VBZ, is quoted in a statement from his company. In addition, the service life should be able to be more than doubled by weakening the light to 25 to 30 years, according to the announcement.

    In the next five years, the previous fluorescent tubes at all bus stops are to be replaced by the new LED lighting.