Aquarator

This project is aimed at early prediction of Parkinson’s disease through computerized analysis of online handwriting samples. While a number of clinical evaluations are carried out to diagnose the Parkinson’s disease, most of these tests are effective only once the disease is at a relatively advanced stage. Studies have shown that analysis of handwriting can be used as a valuable tool for prediction of Parkinson’s disease at very early stages. In the proposed research, we have employed raw signals captured by a digitizer tablet while attempting several writing and drawing templates, to compute various kinematic, temporal, and pen-based attributes. In addition to these online dynamic attributes, static offline visual features are also extracted using state-of-the-art Convolutional Neural Networks (CNNs). The developed tools allow practitioners to collect handwriting and drawing samples of subjects and employ a combination of different types of features (online and offline) for the analysis and prediction. 

Out of 3 percent of freshwater present on the earth, around 1 percent is in the earth’s atmosphere. If that 1 percent water is condensed in some way, it can become another sustainable source of freshwater.

The power of  the AQUARATOR technology to provide an independent source of pure drinking water – drawn directly from the air.

It can be used to generate fresh water for ships, agriculture, food & beverage industry, energy production processes, hotels, homes and offices.

Aquarator is a scalable solution that can serve a range of capacities, making it suitable for applications from household drinking water provision to generate pure water on industrial scale.

Project Team

  • SYED UMAID ALI
  • Qadeer Hashir

Publications

  1. Moetesum, M., Diaz, M., Masroor, U., Siddiqi, I., & Vessio, G. (2022). A survey of visual and procedural handwriting analysis for neuropsychological assessment. Neural Computing and Applications, 1-18.
  2. Diaz, M., Moetesum, M., Siddiqi, I., & Vessio, G. (2021). Sequence-based dynamic handwriting analysis for Parkinson’s disease detection with one-dimensional convolutions and BiGRUs. Expert Systems with Applications, 168, 114405.
  3. Moetesum, M., Siddiqi, I., Javed, F., & Masroor, U. (2020, September). Dynamic Handwriting Analysis for Parkinson’s Disease Identification using C-BiGRU Model. In 2020 17th International Conference on Frontiers in Handwriting Recognition (ICFHR) (pp. 115-120). IEEE.

Project Demo

Project Demo