BIO

Danlard.webp

Danlard Iddrisu

Personal Profile

Name: Iddrisu Danlard

 

Address:

Sunyani Technical University (STU)

P. O. Box 206, Sunyani, Bono Region

Email: idanlard@st.knust.edu.gh

           id.danlard@gmail.com

Telephone/Mobile:

+233  ̶  (0)3520  ̶  27053/23278

(+233)  (0) 20 7243544

Website/Blog

https://www.researchgate.net/profile/Iddrisu_Danlard3

https://orcid.org/0000-0001-6700-7985

 

Qualifications:

PhD. Computer Engineering, 2018-Date

MSc. Photonics, 2012-2014

BSc. Electrical Engineering, 2001-2005

 

Institutions of Study:

Kwame Nkrumah University of Science and Technology, 2018-Date

University of Eastern Finland, Joensuu, 2012-2014

University of Mines and Technology, 2001-2005

 

Current Teaching areas:

Industrial Electronics

Digital Computer Design 

Sensor Networks

Embedded Systems

Fault Diagnosis in Electrical Equipment & Power Systems

 

Research Interests:

Design, modelling, and numerical analysis of multi-parameter photonic crystal fiber (PCF) plasmonic sensors for chemical and biological applications

Design and optimization of polarization filters for broadband applications

Modelling and optimization of industrial power electronic systems

Design, development and optimization of renewable energy systems (solar & wind)

 

Employment Records & Positions Held/Hold:

Lecturer, Department of Electrical & Electronic Engineering, STU, 2015-To date

Head of Department, Department of Electrical & Electronic Engineering, STU, 2016-2018 

Core Network Management Center Engineer, [MTN Ghana Limited], 2010-2012

Assistant Electrical Engineer [ECG], 2007– 2010

 

Publications:

Assaying with PCF-based SPR refractive index biosensors: From recent configurations to outstanding detection limits 10.1016/j.yofte.2019.102083

Danlard, I., Samuel J. Y, and Matthew T. "Power loss minimization and voltage improvement by combined compensation method: A case study." https://scholar.google.com/scholar?oi=bibs&hl=en&cluster=18292026359214823529

I. Danlard, “Terahertz, Raman and photoacoustic spectroscopy investigations of antimalarial tablets”, UEF Electronic Publications, 2014. https://epublications.uef.fi/pub/urn_nbn_fi_uef-20140973/index_en.html