BATMAX
BATMAX project aims to pave the way for advanced next generation data-based and adaptable battery management systems capable of fulfilling the needs and requirements of various mobile and stationary applications and use cases. The main objective is to contribute to improving battery system performance, safety, reliability, service life, and lifetime cost. BATMAX develops a framework to efficiently parameterise physics-based models as well as the hardware and sensorisation on cell and system level for collection and communication of battery measurement data
NEXTBMS
NEXTBMS will develop an advanced battery management system (BMS) built on fundamental knowledge and experience with the physicochemical processes of lithium-ion batteries, which will enable the significant enhancement of current modelling approaches. These modelling approaches will be further improved by optimising sensors and measurement techniques to meet modelling and the physical cell configurations to form a framework that supports improving the battery state prediction and control. NEXTBMS will ensure that the next generation of BMSs will enable higher performance, safety, and longer lifetime of the battery cells for an overall optimal utilisation of the battery system.
NEMO PROJECT
The NEMO project aims to deliver next-generation BMS by combining cutting-edge hardware and software concepts. These concepts exploit a wide range of sensor information acquired at high frequencies, along with dedicated electrochemical impedance spectroscopy (EIS) sensors. This enables the identification of different electrochemical processes inside the battery cells and tracks their evolution over time. Combinations of coupled physics-based and data-driven approaches are also planned. NEMO will provide solutions that significantly extend battery life and enhance system safety for automotive and stationary applications over the long term.