Paul Davidsson Director Professor in Computer Science
The Internet of Things (IoT) Everything that benefits from being connected will be connected! connectivity is ubiquitous technology is affordable 25 50 billion devices connected to the Internet by 2020 The Internet of Things has the potential to change the world, just as the Internet did. Maybe even more so. Kevin Ashton
Fourth wave of digitalization 2. Internet 3. Mobile Internet 4. Internet of Things 1. Computer
and People IoT research has focused on the technological infrastructure. But in order to develop successful products and services, the perspective of the users must be integrated. We will focus on: Interaction technology User-centered development Embedded intelligence
IoTaP application areas Societal challenges Smart transport: improving transportation systems, including logistics and public transport. Smart cities: supporting emergency services, energy/water/waste management, public safety, etc. Smart living: improving the comfort and quality of daily life. Smart health: supporting (preventive) health care anywhere and anytime. Smart learning: facilitating learning anywhere, including both professional and informal learning.
Vision: To be the leading research environment in making the Internet of Things useful and usable. Official start on January 1, 2014 Currently 28 researchers and PhD students In the on-going projects we collaborate with 50+ companies 16 universities and research institutes 9 public and 5 non-profit organizations 17 MSEK turnover 2015 (>10 MSEK external funding)
Internet of Things and People Research Profile Project Objectives: To systematically develop and establish a research environment, which is internationally competitive in a well-defined area of knowledge relevant to the business partners Basic facts 7 years (September 2014 August 2021) 36 MSEK from KK-Stiftelsen 36 MSEK co-funding from industry 100+ MSEK total budget (including MAH co-funding)
Industrial partners Research profile
6 sub-projects Research profile Context-awareness in Consumer IoT Technologies Carl Magnus Olsson (carl.magnus.olsson@mah.se) Cooperative, Self-aware and Intelligent Surveillance Systems Jan Persson (jan.a.persson@mah.se) Emergent Configurations of Connected Systems Romina Spalazzese (romina.spalazzese@mah.se) Interaction in the Smart Home: A Prototype-driven Approach Per Linde (per.linde@mah.se) Intelligent Support for Privacy Management in Smart Homes Andreas Jacobsson (andreas.jacobsson@mah.se) Unlocking User Value in IoT Helena Holmström Olsson (helena.holmstrom.olsson@mah.se)
Context-awareness in Consumer IoT (CACT) How can rich use of context information improve the design of more meaningful IoT-based services? Physical Contextual data Contextaware behavior Smarter services Social
Cooperative, Self-aware and Intelligent Surveillance Systems (CoSIS) The design of intelligent surveillance systems consisting of different types of connected devices cameras, sensors, actuators and processors. For instance, we will study how to: fuse meta-data streams from cameras with other types of sensor data better understanding what happens in the area being surveyed, as well as, in the system itself, and assess the reliability of information enable collaboration between cameras (and other devices) automatically configure the system depending on the context support new value-added services
Emergent Configurations of Connected Systems (ECOS) Using connected devices can be quite a challenge The system you use is an emergent configuration, involving stationary and mobile components communicating with each other When you move, or when new components appear, the configuration changes How can you tell what services the configuration offers? How can you be sure to get the most out of them?
Intelligent Support for Privacy Management in Smart Homes (ismash) Homes are becoming smarter by connected devices to improve security, energy efficiency, entertainment, and comfort. However, these devices generates data about what time your family comes home at night, what products and services you use, etc. How do we make sure this information doesn t end up in the wrong hands? How do we design systems that enable users to control their right to privacy?
Interaction in the Smart Home: A Prototype-driven Approach (ISHPA) The intimate setting of the home requires subtle participatory methods and processes Living Lab-inspired approach, researchers and developers collaborate with families in order to explore a design space for IoT in homes promote learning, understanding and personal configuration use methods for rapid prototyping of different solutions Results are expected in the form of prototypes and new ways for companies for exploring IoT-technologies in collaboration with residents and families.
Unlocking User Value in IoT (UseIT) Study how distinguishing characteristics of IoT systems 1. change the ways in which users interact with systems and 2. how these characteristics alter current software engineering practices. Develop methods and techniques that help companies advance development of IoT systems. Help companies to accelerate the adoption of new methods and techniques to develop IoT systems.
Internet of Things and People Research Centre Vs. Profile Minimum Viable Device IoTaP Research Centre IoTaP Research Profile Dynahmat Disturbance Mgmnt for Public Trans. CACT ECOS IPSHA UseIT Data Innovation Arena PELARS CoSIS ismash TagOn SHINE ecotell
Thanks for your attention! & Welcome to our event on November 15! Paul Davidsson paul.davidsson@mah.se iotap.mah.se