Internet of Things (IoT)

Internet of Things abstract concept illustration. IoT symbol.

Who we are 

We are a Research and Innovation Centre which focuses on developments in the emerging IoT, wireless networks and Big Data space.

What we do 

We research, implement and test robust and sustainable solutions in all sectors of the economy

Why it matters

IoT, Wireless Networks and Big Data is the future of technology in ensuring sustainable and thriving economies.

IoT unit engages in research and development of automated smart solutions applicable to various sectors of the local and regional economy.
The unit deals with development, training and consultancy of IoT solutions and it’s goal is to enable private and public-sector organisations to manage assets, optimise performance and develop new business models through IoT technology.

The unit’s developments cut across the entire IoT scope and include remote-sensing development, machine to machine (M2M) architecture,
communication protocols and low-power wide area networks, cloud storage of big data from IoT devices as well as data processing and aggregation at the edge and in the cloud.

Write To Us

Leonard Mabele

Manager, IoT Research

Email: iot@strathmore.edu

Ofiice: +(254) (0) 703 034 474  Ext: 2635

Cell: +(254) (0) 714 764 896

Areas of Focus

Training: Certificate in Cisco IoT Fundamentals, Internet of Things and 3D Printing, Embedded Systems, IoT Security Fundamentals, Low Power Wide Area Networks (LoRa, Sigfox, NarrowBand-IoT and Weightless) among others.

Research: Collaboration with both local and global institutions from academia and industry to help drive the adoption of IoT in Kenya and the region. Partnerships include: The University of Strathclyde (UK) and the Communications Authority of Kenya (CA) on TV White Spaces and 5G to investigate how last mile connectivity can be achieved through spectrum management.

The unit has formed partnerships with MMUST, Laikipia and Kibabii Universities on implementation of an early warning system through IoT and data analytics to inform on impending drought and flood disasters with predictive mitigation and response strategies.

Project Development: An IoT-based pit latrine monitoring system that leverages Sigfox Low Power Wide Area Network (LPWAN), Precision
Farming and Livestock Monitoring. Capacity Development for a project dubbed WaziHub to nurture a LoRaWAN ecosystem and Air Quality Monitoring in the region.

Our Research Areas

Software Defined Networking (SDN)
SDN is an architecture that aims to make networks agile and flexible. We have currently partnering with East Carolina University to implement an IoT-based dashboard that uses BeagleBone black and raspberry pi to monitor network response, throughput, the speed of website loading with more network analysis.

Dynamic Spectrum Access
Efficient Spectrum utilisation guarantees reliable and sustainable IoT adoption through stable connectivity which goes beyond having devices connected to include last mile Internet access. Advanced research topics currently being investigated by our IoT Research Team include dynamic sharing of spectrum to allow both people and devices to be connected the internet without interfering with existing licensed services. These blocks of work include TV whitespaces, Advanced LTE and 5G technologies. @iLabAfrica’s Internet of Things Research Unit is currently working on a research project titled: Enabling Affordable Internet Access with Dynamic Spectrum Management and Software Defined Radio. The project is a funded collaborative research by the Engineering and Physical Sciences Research Council (EPSRC) and led by the University of Strathclyde from Glasgow, UK and involves partner universities from Malawi (University of Malawi), Zambia (Copperbelt University) and Ghana (University of Ghana). Locally, we have partnered with the Communications Authority of Kenya to carry out research in spectrum innovation through Dynamic Spectrum Access techniques.

Low Power Wide Area Networks (LPWAN)
LPWAN Technology offers a very compelling mix of long range, low power consumption and secure data transmission. LPWAN is mainly targeted for Machine to Machine Communication (M2M) and IoT networks. We, so far implemented LoRaWAN infrastructure to leapfrog IoT adoption. We are currently collaborating in the Horizon 2020 project titled: WAZIHUB to develop capacity in implementation of LoRaWAN and enable startups leverage this technology for sustainable business models. The project is in partnership with universities and innovation hubs from Italy, France, Tanzania, Senegal, Zambia, Ghana, Uganda and South Africa. We have also partnered with Liquid telecom to advance research on Sigfox network and collaboratively drive its adoption for commercial activity in Kenya.

Industrial IoT
Industry 4.0, a name given to the current trend of automation and data exchange in manufacturing technologies is one of the major blocks of our research. We are keen to help drive innovation in the Industrial ecosystem through the combination of cyber-physical systems, the Internet of Things and cognitive computing.