Key Exploitable Results on the Horizon Results Platform

During the project, the AMANDA team listed 6 Key Exploitable Results (KERs as termed by the EU) and published them on the Horizon Results Platform.

KER is a main interesting result which has been selected and prioritised due to its high potential to be "exploited" – meaning to make use and derive benefits - downstream the value chain of a product, process or solution, or act as an important input to policy, further research or education. Six key results can be found in an overview below. For more details about each result, please follow the link to the Horizon Results Platform:

  1. AMANDA – Autonomous Smart Sensing Card

https://ec.europa.eu/info/funding-tenders/opportunities/portal/screen/opportunities/horizon-results-platform/45651;keyword=AMANDA

The AMANDA Consortium has designed and developed a maintenance-free, miniaturised and easily deployable Autonomous Smart Sensing Card - ASSC for environmental sensing and for asset and people tracking/monitoring in smart living and working environments.

  1. Ultra-Low Power Capacitive Sensor for AMANDA - Autonomous Smart Sensing Card

https://ec.europa.eu/info/funding-tenders/opportunities/portal/screen/opportunities/horizon-results-platform/38458;keyword=AMANDA

The integrated circuit MS8892 is an ultra-low-power capacitive sensor specially designed for human body detection and as a wake-up source for ultra-low-power systems. The MS8892 capacitive sensor was developed as part of the AMANDA project but can be used in various applications.

  1. Ultra-Low Power Temperature Sensor for AMANDA - Autonomous Smart Sensing Card

https://ec.europa.eu/info/funding-tenders/opportunities/portal/screen/opportunities/horizon-results-platform/38490;keyword=AMANDA

One of the significant challenges for any autonomous application is to keep the standby power low enough for the battery to last when power is not generated. The MS1089 temperature sensor uses no active current between measurements, which means that only standby current flows. The standby current for the MS1089 is less than 5nA, making it ideal for autonomous applications.

  1. Data Fusion Engine for AMANDA – Autonomous Smart Sensing Card

https://ec.europa.eu/info/funding-tenders/opportunities/portal/screen/opportunities/horizon-results-platform/45629;keyword=AMANDA

The AMANDA data fusion engine is a multi-purpose and lightweight data fusion & optimisation engine, designed and developed to support the low-power and intelligent capabilities of the AMANDA ASSC. It supports the collection, cleaning, pruning and indexing of data produced by the sensors of the AMANDA card.

  1. Edge Intelligence for AMANDA – Autonomous Smart Sensing Card

https://ec.europa.eu/info/funding-tenders/opportunities/portal/screen/opportunities/horizon-results-platform/45632;keyword=AMANDA

A State-of-the-Art Edge Intelligence engine, developed for low-power embedded systems

  1. Cybersecurity for AMANDA – Autonomous Smart Sensing Card

https://ec.europa.eu/info/funding-tenders/opportunities/portal/screen/opportunities/horizon-results-platform/45642;keyword=AMANDA

The AMANDA cybersecurity component is based on several security pillars. Each pillar offers a different security level, contributing in the formation of a more robust and secure embedded system.