Biomedical Circuits & Systems
Precision Electronics. Smarter Health. Integrated Innovation.
Precision Electronics. Smarter Health. Integrated Innovation.
We engineer low-noise analog front ends (AFEs) and digital systems to reliably capture ECG, EEG, EMG, and neural signals—even in challenging, mobile environments.
Our group develops biocompatible microelectronics designed for energy-efficient, long-term operation within the human body. Applications include in-body diagnostics, neurostimulation, and therapeutic monitoring.
We design real-time wearable systems that securely transmit health data via Bluetooth, LoRa, and cloud networks, ensuring seamless monitoring for remote and rural care.
Embedded machine learning models enable on-device health analytics, including arrhythmia detection, seizure forecasting, and personalized care recommendations.
We are a cross-disciplinary team of engineers, medical scientists, and AI experts working to push the boundaries of bio-integrated electronics. Our systems are designed for real-world environments—from intensive care units to remote health centers—bringing high-tech diagnostics to low-resource settings.
With a vision to bridge electronics and biology, we focus on scalable designs that maintain clinical-grade accuracy, low power consumption, and user comfort.
“We engineer circuits that don’t just measure life—they help improve it.”
A compact, Bluetooth-enabled patch that continuously tracks cardiac rhythms with medical-grade precision and battery-efficient operation.
Development of an ultra-low-noise analog front end for brain-computer interfaces (BCIs) with integrated neural decoding and classification.
An affordable, ruggedized multi-signal wristband that provides real-time monitoring for patients in low-resource settings.
Year: 2025 Category: Biomedical Engineering
This paper introduces an IDC pressure sensors-enabled smart footwear system to detect and monitor diabetic foot ulcers in vitro.
Year: 2024 Category: Flexible Electronics
This research focuses on textile-based, washable multimode capacitive sensors designed for wearable applications.
Year: 2021 Category: Cellulose
Discusses the design and fabrication of tunable and foldable paper-based passive components and filter circuits.
Principal Investigator
PHD Fellow
Research Assistant
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Department of Electrical Engineering
Global Center for innovative Systems & Solutions, 4th floor ITU, Lahore