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Project Supervisor - Dr Riaz Ahmed Shaikh The purpose of this research project is to explore how digital twin technology can enhance the efficiency, comfort, security, and privacy of smart homes. By
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will design “smart” aqueous or gel electrolytes and matched cathode coatings that work as a single system to: control how Zn2+ is solvated and transported, suppress dendrites and cathode dissolution, and
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University (with access to facilities at the University of Edinburgh) Mode: Full-time Duration: 3.5 years (42 months) Eligible Applicants: UK home students only (EU applicants must hold settled/pre-settled
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deliver environmental benefits remains limited. This PhD will explore how green infrastructure supports ecosystem health and biodiversity in cities. Working with Manchester Met’s Smart Infrastructure Lab
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wellbeing, and sustainable performance in emerging forms of work. The design of smart and connected systems (e.g. homes, workplaces, or supply chains) that drive inclusion and behavioural change. Ethical and
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About the Project Project details: Smart meters have become increasingly common in UK homes, yet most only report total consumption, offering little insight into which appliances drive demand. Non
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PhD Studentship in Aeronautics: Smart Adaptive Materials for Soft Robotics Skins and Aero-robotic Applications (AE0076) Start Date: Between 1 August 2026 and 1 July 2027 Introduction: Soft robotics
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, and edge computing, AASs are evolving into smart, interconnected solutions for addressing the dynamic challenges of modern cities. This project investigates how to coordinate these multifunctional
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Funding: The studentship is supported for 3.5 years and includes Home rate tuition fees plus a stipend of £19,215 per annum 2025-26 rate (2026-27 rate TBC) Second Supervisor: (External Lead
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utilise the University of Birmingham’s smart campus building data in order to develop a template for such an assessment. In parallel, working the Met Office and their forecasting team, the project will