The road outside Kista lighted up by headlights of cars passing by

Shaping the future of mobility with AI and multisensors

The road outside Kista lighted up by headlights of cars passing by
Smart City

AI and multisensors to improve urban mobility

There are today several technologies through which city traffic and pedestrian flows can be operated and manage. At the same time, and as a result of our increasing mobility behavior, cities face severe challenges with congestion, accidents and air pollution.

The utilization of sensing technology in our streets

The utilization of sensing technology in our streets comes with many possibilities, as sensing and imaging technologies are becoming advanced and collect data using various types of scanning cameras and sensors equipped with AI.

-We need to make transport smarter, more robust and more sustainable. And we also need to think about the public space, so that we make it more accessible, attractive and available for all the people. These tests are very important because we need a place where we can test new technology.” says Maria Holm, Project Manager at the City of Stockholm.

 

 

ViscandoQamcom and Savantic are all involved in ongoing tests to promote better traffic flows based on real time data, using multisensor and AI technologies installed on the streets of Kista.

– Traditional ways of measuring traffic flows are usually based on induction lines under the road surface or on tubes laid on the streets. Our goal with the test in Kista is to evaluate whether existing technologies such as multisensors and AI-based based technologies, can provide better results and added value for the city planners, says Anna Chiara Brunetti, Project Manager at Qamcom.

 

– If we would be able to plan the public transportation system in a data-driven way, that would lead to much more attractive public transportation and a more sustainable city, says Claes Orsholm, Founder & CEO at Savantic.

Call for action

Are you too a Stockholm-based SME developing solutions with the potential to transform the automotive industry and transportation system? Would you like to demonstrate your solution to a wider audience, or test together with a potential business partner within the ICT or automotive sector? Please contact sara.nozkova@kista.com.

Intelligent traffic management

Multisensors is part of the focus area “Intelligent traffic management“, creating prerequisites for unique insights into current traffic flows. A process and phsysical place where businesses quick and effective can test and develop their tech and to compare solutions with other technology leaders.


Seeing through obstacles and around corners, the 5G Ride project rolls on

Drones

Seeing through obstacles and around corners, the 5G Ride project rolls on

The 2022 5G RIDE Demo Day on October 13 gathered more than 50 special invited guests and project partners who got a sneak preview of the latest technology updates.

This year’s demonstration focused on how new technology can be used to increase safety and security around autonomous vehicles in commuting traffic, hence offering a safer experience for travellers and other road users. The visitors got to experience how smart sensors on vehicles and in the surrounding infrastructure makes it possible for the vehicle to see through obstacles and around corners.

The sensors are an important addition to the project, as they measure positions and paths/route for all road users and sends this data in real time to Ericsson Innovation cloud, via 5G, where the data is processed, combined with other sources, and shared with the connected vehicle. The vehicle is acting upon the combined picture, from sensors, traffic tower, own cameras and the surrounding. In real time.  During the demonstration we could see what happens if a person crosses the street if there is an obstacle on the path and how buildings and people are plotted on the onboard screens.

The technology enabling this is the 5G network and the traffic tower, as they fetch and share real-time data from the vehicle.

The ambition of the 5G RIDE project is to create conditions for an efficient and sustainable public transport where operators in traffic towers can support fleets of autonomous, electric vehicles to improve traffic planning, safety and reduce energy consumption. By taking a unified approach and combining technologies, the next step in the development of driverless automated vehicles is taken.

This project takes place in a collaboration between some of Sweden’s leading companies in mobility and technology. Kista Science City AB, Keolis, Ericsson, Telia, T-engineering, Viscando, Scania, Region Stockholm, intel and KTH.  Working together to create a more environmentally smart and cost-efficient transport system.

For more information about the project

project manager Eleonor Sjödin Turah
eleonor.sjodinturah@kista.com

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SMART

SMART

Intelligent traffic system

The project

Traffic congestion is a huge problem in urban areas. In Stockholm, car owners spend about 16 workdays stuck in traffic each year. Public transport is also affected by this, and during rush hours, bus services can suffer huge delays.

The objective of the Spatial Modelling Analytics & Real-time Tracking (SMART) Mobility Project is to mitigate growing urban traffic congestion challenges and associated issues of environmental degradation, economic inefficiency and negative impacts to the quality of life of citizens.

SMART Mobility will revolutionise the efficiency of traffic and commuting in cities by leveraging the capabilities of new 4D spatial technology and analysis platforms using real-time vehicle location and various movement data.

Several data sets

The project will use data from many different sources, including:

  • Wifi data from Bumbee Labs. Position data is collected when smartphone searches for WiFi-connectivity. Bumbee Labs technologies utilizes this for crowd measurements and pedestrian flow, which is compliant with GDPR regulations.
  • Vehicle data from Ramboll, Inrix and Tomtom. Through GPS, data such as speed and route can be obtained.
  • Crowd data from Tre. Anonymize crowd data obtained from different sources, like cellular data and WiFi.

Project period

2020-2022

Partners

Ramboll
Bumbee Labs
Savantic
Tre
RISE

Contact

Eleonor Sjödin Turah
eleonor.sjodinturah@kista.com

Summary

SMART is a project that aims to create more effective traffic planning, with focus on public transport. The project will result in a prototype for a new platform, where many different data sets will interplay with AI technologies to predict congestion and plan routes accordingly.

The platform

The platform will be open and transparent for information and data exchange. The data sets can then be used for new types of services and applications, such as new routes for public transport and analyzing the size of a bus fleet. Through visualisation, this can be used to plan for a more effective public transport. In the end, this will benefit the end users – the travellers.

The project

The project aims to:

  1. Conduct three use cases in the Kista-Järva area
  2. Build the SMART-platform
  3. Integrate data sets into the platform

The anticipated result of the project is to completely integrate siloed data using 4D location. A real-time, shared and collaborative application platform will give access to multiple stakeholders. Furthermore, SMART will optimize mobility in the existing transportation network on a massive scale

Shot from above of street crossing with cars
Roads against pink sky and headlight from cars

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Focus shot of a drone flying in the city sky

Drones – a natural layer in the future transport system

focused shot of a drone flying at city street
Drones

Drones – a natural layer in the future transport system

What impact will the new U-space regulations, Sustainable Urban Mobility Planning and UAMs have on Swedish authorities and entities? This topic was discussed at an event earlier this year, part of the test and demo activities in Fordonsdalen.

A broad range of stakeholders from the City of Stockholm, Region Stockholm, Luftfartsverket, Ericsson and several Stockholm based small and middle sized enterprises (SME) gathered to discuss and demonstrate the role drones will have in our future cities.

Raising awareness on how to drive a sustainable and responsible transition of urban mobility

The purpose of the meeting was to raise awareness on how to drive a sustainable and responsible transition of urban mobility into space, or the third dimension.

A vital part of the event was the discussion on how municipalities should implement the new upcoming U-space regulations, and the role of innovative SME’s in this process, showcasing safe use cases, eg data collection and inspection of first and last mile deliveries. In order to to shape the future of mobility we must have a common understanding from all parties, authorities, municipalities, researchers and startups.

Three small-sized innovative companies had the opportunity to present their solutions during the meeting;

Skyqraft – visual data analytics provider helping businesses in the linear infrastructure sector to make better decisions about grids,

Skysense, experts in the area of tracking aircraft, the growing field of aircraft safety and protection against drone;

Aerit – a sustainable drone delivery service based in Stockholm.

”Unmanned aerial vehicles, or more commonly, drones, are already in use in our society for different purposes such as data collection and infrastructure inspections. The possibilities of using drones in the urban environment are endless. To establish a good balance of what use cases the citizens need and the the ones that will have the most impact in terms of environmental and social sustainability, the collaboration between the public and private sector is key.”

— Sara Nozkova, Mobility Lead at Kista Science City and project manager for the Test & Demo activities within Fordonsdalen.

Call for action

Are you too a Stockholm-based SME developing solutions with the potential to transform the automotive industry and transportation system? Would you like to demonstrate your solution to a wider audience, or test together with a potential business partner within the ICT or automotive sector? Please contact sara.nozkova@kista.com.

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drone in air

Nordic drone initiative

Nordic drone initiative

A platform for exchange of ideas between the Nordic countries and the rest of the world

The project

Together with other innovation clusters in the Nordics, Kista Science City founded the Nordic Drone Initiative. This project will strengthen the ties between the different clusters and help companies working with drones to learn from neighbors and form new alliances.

During the project duration, Kista Science City will represent its partners interests in dialogs with the Nordic cluster organizations, cities, and drone companies. The project creates a unique collaboration platform (first of its kind in the Nordics!) to discuss the various use areas for drones in the cities. And as the next step, act upon them through tests in real urban environment, such as Kista.

Partners

VTT, RISE, NORCE, Robots Expert, Bell Rock Advisors, Avinor, Katla Aero, Drone Nord, Gate 21, Mainbase, Flypulse, Nordic Edge, UAS Norway, LFV, Östergötland, Business Tampere

Funded by

Nordic Innovation

Summary

Together with other innovation clusters in the Nordics, Kista Science City founded the Nordic Drone Initiative. This project will strengthen the ties between the different clusters and help companies working with drones to learn from neighbors and form new alliances.

The purpose

  • To identify and evaluate how drones can be used in the transport sector to provide the greatest benefit to society, business and the environment.
  • Map the Nordic ecosystem for drones and the opportunities that this technology provides.
  • Contribute to the development of drone technology for Nordic weather conditions.
  • Propose the development of rule changes that enable drone transports and large-scale operations with vertical take-off and landing.
  • Create a platform for continued research and innovation and developed international cooperation.

Shot from above of street crossing with cars
Roads against pink sky and headlight from cars

NDI members enjoy access to a unique network of drone experts, insights and further research/commercial project opportunities (e.g. H2020) with top Nordic drone organisations. NDI accepts new members with emphasis on commercial actors able to contribute resources in the development work.

Funded by Nordic Innovation

Nordic Innovation is an organization under the Nordic Council of Ministers and aims to make the Nordics a pioneering region for sustainable growth and works to promote entrepreneurship, innovation and competitiveness in Nordic business. Nordic Innovation supports programs and projects which contribute in fulfilling the goals of the Cooperation Program for Innovation and Business 2018-2021 which is decided by the Nordic Ministers for Business and Innovation.


Intelligenta Trafiksystem

(Pressrelease 20221018)
Trafiken i storstäderna är inte alls så smart som den borde vara.
Nu testas ny teknik som ska ändra på det.
Med intelligent trafikanalys och trafikstyrning ska bilköerna kapas, trafiken flyta bättre och städer bli mer hållbara.

Just nu engagerar sig en rad innovativa teknikbolag i flera parallella trafikprojekt i Kista norr om Stockholm i syfte att testa och utveckla lösningar som kan bidra till effektivare trafikflöden i storstäderna.

Siktet är inställt på att radikalt minska bilköer, trafikbuller, utsläpp av giftiga partiklar och ohälsa – och det första steget är att dra nytta av teknik som kan läsa av trafiksituationen på ett mer intelligent sätt än vad som görs idag.

De nya lösningar som testas och utvecklas bygger på användning av artificiell intelligens och edge kombinerat med Lidar, Radar och annan sensorteknik i framkant. Tesla drar nytta av samma teknik i sina självkörande fordon för att förstå trafikbilden och snabbt fatta beslut utifrån hur det ser ut med bilar, fotgängare, cyklister, hinder på vägen och så vidare.

I huvudsak går projekten i Kista – och även till viss del Hornsgatan i centrala Stockholm – ut på att fånga in och optimera relevant och korrekt data, och att genom effektiv analys bättre förstå trafikflöden, samt att hitta den optimala uppsättningen av olika tekniker för att styra trafiken.

– Trafiken styrs mer optimalt med realtidsförståelse av den aktuella trafikmiljön, hastigheten på trafiken, närvarande fordonsslag och så vidare, säger Lucas Uhlén på Kista Science City, som ligger bakom satsningen i samarbete med Stockholms stad och andra partners.

– Det är banbrytande att kunna jämföra så många tekniker på samma ställe. Få platser i Europa kan idag tillhandahålla liknande förutsättningar för test och utveckling av teknik.

Projekten är attraktiva för teknikföretag i den absoluta framkanten av flera skäl. Den största uppsidan är möjligheten att få testa sin teknik i ”krattad bana” och samtidigt kunna ha en tät dialog med framtida potentiella kunder, som till exempel Stockholms stad. På så sätt maximeras företagens och samhällets möjligheter att vidareutveckla tekniker och processer. Dessutom används resultaten som dataunderlag till ny forskning och utveckling.

Här är några exempel på vad som kan komma att möjliggöras när trafiken kan analyseras smartare:

  • Dynamiskt anpassade trafikljus där tidsintervallerna mellan rött och grönt ändras löpande baserat på en lång rad olika trafikparametrar
  • Dynamiska hastighetsbegränsningar utifrån hur trafiken ser ut just nu
  • Intelligenta zoner med hjälp av geofencing
  • Guidning till närmast lediga p-platser
  • Guidning av tung trafik för att reducera buller och giftiga partiklar

För mer detaljer kring projekten, kontakta: Lucas Uhlén, Kista Science City AB.

 


Photo from the side of the blue 5G Ride minibus with cameras on the roof

5G Ride

5G Ride

Autonomous vehicles

The project

5G Ride is a concept for self-driving, 5G-connected electric vehicles used in public transport. 

The purpose of the project is to develop and test connected autonomous vehicles to get closer to an implementation of autonomous vehicles on public roads.

The 5G network’s unique technical features, including enhanced security, extremely high data speeds combined with low latency, means that the connected buses can respond in real time to commands from the centralized control tower.

In 2021, additional funding was added to the project and the focus for the continuation of the project is the further development of the Connected Control Tower. One part of this is how to use more data, for example about the route, the vehicle or the connection strength, to make it possible to prevent any problems, plan routes and schedules better and act more swiftly should problems arise.

Project period

2020-2025

Partners

Keolis
Ericsson
Telia
Intel
Scania
Viscando
T-Engineering
Royal Institute of Technology
City of Stockholm
Region Stockholm
AppliedAutonomy
VY

Contact

Lucas Uhlén
lucas.uhlen@kista.com

Summary

5G Ride is a concept for self-driving, 5G-connected electric vehicles used in public transport.

Shot from above of street crossing with cars
Roads against pink sky and headlight from cars

The pilot

The pilot in 2020 was the result of a unique collaboration between some of Sweden’s most prominent and well-known organizations within the fields of mobility and technology.

The knowledge hub and testbed Urban ICT Arena managed the initiative, with Keolis as bus operator. Ericsson provided the technical solution for the connected control tower, a solution that will be further developed during 2021.

Telia provideded the 5G-connectivity in collaboration with Ericsson and deployed 5G at Djurgården specifically for this project. Intel delivered analytics capabilities and the technology for the processing across the network including the IT-system in the vehicles and the control tower, as well as the mobile network. T-Engineering, a Swedish technology firm, delivered vehicle and self-driving technology.

HRH Prince Daniel was among the dignitaries to attend the official inauguration ceremony outside Tekniska museet.


Urban robots and shared micro mobility

Small robotic cars on the ground
Autonomous vehicles

Urban robots and shared micro mobility

Test & demo activities for Fordonsdalen took off with full speed this earlier this year!

At a demonstration day in June, part of Kista Mobility day 22, smaller growth companies with solutions for autonomous robots and smart city infrastructure were invited to put their innovations on display for a wide audience of decision makers, researchers, public sector representatives and potential business partners in the automotive and ICT industries.

The attendees could dive into cutting-edge solutions aiming to increase the pace of transition, strengthen the innovation power and business development for the city’s mobility systems.

“AI-powered autonomous robots are reshaping urban spaces and city life already today. Cities are at the center of the technological changes fueled by the fourth industrial revolution such as automation and artificial intelligence. We see a rapid development of a range of technologies addressing urban challenges.”

–says Sara Nozkova, Mobility Lead at Kista Science City and project manager for the Test & Demo activities within Fordonsdalen.

The companies demonstrating their solutions in Kista, eg ABConnect and Teraki, showcased how autonomous robots can be integrated into the urban landscape to provide smarter and more sustainable, and effective solutions in many areas, such as last-mile goods delivery, and security tasks.

Collaboration is key

New tech solutions is not all. New solutions for smart infrastructure are needed in order to complement the new first and last mile solutions. Nektta and Livelo are two great example of Stockholm-based companies developing new ways to support people getting around the city in a sustainable way, and to re-think the concepts of shared micromobility. Shared micromobility is an innovative sustainable mode of transport that can replace short-distance travel and has the potential to provide many environmental benefits.

Call for action

Are you too a Stockholm-based small or middle-sized company developing solutions with the potential to transform the automotive industry and transportation system? Would you like to demonstrate your solution to a wider audience, or test together with a potential business partner within the ICT or automotive sector? Do not hesitate to send an e-mail to lucas@uhlen@kista.com


Peter Johansson from Arriva standing in front of a bus

Measuring traffic and people flows in Kista and Sollentuna

In Stockholm, car commuters may be forced to spend the equivalent of 16 days in traffic queues for one year. Public transport buses are also heavily affected by congestion and queues.

The objective of the Spatial Modelling Analytics & Real-time Tracking (SMART) Mobility Project is to mitigate growing urban traffic congestion challenges and associated issues of environmental degradation, economic inefficiency and negative impacts to the quality of life of citizens.

SMART started in December 2020 and is now moving from inventory and analysis phase to IRL measurements, in traffic.

As we begin the first measurement period – where we take traffic from Ekerö to Kista and Sollentuna – we are taking the next exciting step in the SMART project. Among other things, we will take a closer look at travel on the bus routes that the transport contractor Arriva runs for Stockholm Public Transport:s (SL) – lines 176, 177 and 179 – where special units will be set up to see passenger flows. During that period, June-September, we will gain valuable insights into what travel to and from Kista and Sollentuna looks like from different areas of Stockholm, what travel patterns look like, etc., so that we can plan and perform public transport in a good way.

Petter Johansson, Business development manager, Arriva (picture above):
”Arriva sees a great value of understanding our customers travel patterns to be able to create a more attractive public transportation with an optimized timetable. In the SMART project, many different actors contribute with their respective data sources, which enables data-driven improvements to optimize traffic planning and accessibility. Through the SMART project, Arriva sees opportunities to optimize and streamline public transportation with customer needs in focus.”

SMART is an initiative to create a database of comprehensive information about all travelers’ movements, to plan and optimize public transport. The project will use data from many different sources, including wifi data from Bumbee Labs, vehicle data from Ramboll, Inrix and Tomtom and crowd data from Tre. The unique thing about SMART is that it makes data about how passengers move even in forms of travel other than the collective ones available.


Two white cars parked outside

Delta

DELTA

DELTA was a pilot project in Kista Science City, organized by Kista Science City, Ericsson, Intel, Keolis and Telia.

The project

The project DELTA explored the possibilites of on demand last mile-solutions as a part of public transport. The electric cars took riders from door to door and connected public transit hubs with destinations within Kista.

The users was able to download an app and then connect with one of the vehicles in Kista. Both the business district (“Kista Science City”) and the residental area was included in the first stage of testing.

Project period

2021

Partners

Keolis
Ericsson
Intel
Telia

Contact

Lucas Uhlén
lucas.uhlen@kista.com

Summary

The project DELTA explored the possibilites of ridesharing as a part of public transport. The project was centeredd around Kista in northern Stockholm and offer ridesharing "last mile" vehicles free of charge to users in the area.

Starting point: User Experience

Within DELTA, we focused on the user experience in its entirety to investigate and evaluate customer experience with this unique service in order to find out what attributes the service needs to provide to become attractive to the target groups – in other words, what criteria it needs to fulfil in order for customers to choose it over other first/last mile mobility solutions (micromobility) and private cars.

Testing period

The pilot was launched during autumn in 2020 and continued until early December. The project was funded by Drive Sweden and Vinnova.