Remote Sensing and GIS for Public Health and Epidemiology Course

COURSE OVERVIEW

 Introduction

The course on Remote Sensing and GIS for Public Health and Epidemiology aims to equip participants with a thorough understanding of how remote sensing and geographic information systems (GIS) can be leveraged in public health and epidemiological research. Through a combination of theoretical knowledge and hands-on exercises, participants will develop the skills necessary to effectively utilize remote sensing and GIS technologies for assessing, monitoring, and analyzing public health issues and disease patterns.

 

Objectives

1. Provide an introduction to the fundamentals of remote sensing and GIS technologies.
2. Explore diverse applications of remote sensing and GIS in the context of public health and epidemiology.
3. Enhance participants’ proficiency in collecting, managing, analyzing, and visualizing geospatial data.
4. Offer practical training in remote sensing and GIS software for public health research.
5. Demonstrate the contribution of remote sensing and GIS in disease surveillance and outbreak response.
6. Foster collaboration and networking among participants for future research and projects.

 

Organizational Benefits

By participating in this course, organizations can expect the following benefits:

1. Enhanced capacity of staff members to effectively utilize remote sensing and GIS technologies for public health and epidemiological research.
2. Improved understanding of the spatial aspects of disease patterns, facilitating informed decision-making.
3. Increased efficiency in data collection, management, analysis, and visualization through the use of geospatial tools.
4. Strengthened ability to identify and respond to disease outbreaks through improved surveillance and monitoring systems.
5. Potential for collaborations and partnerships with other organizations and institutions working in the field of public health and GIS.

 

Who Should Attend

Professionals and experts to use remote sensing data to solve real-world problems

Duration

5 days

 

COURSE OUTLINE

Module 1: Introduction to Remote Sensing and GIS in Public Health

• Overview of remote sensing and GIS technologies
• Significance of geospatial analysis in public health research
• Integration of remote sensing and GIS in epidemiological studies

Module 2: Fundamentals of Remote Sensing

• Electromagnetic spectrum and its relevance to remote sensing
• Types of remote sensing platforms (satellites, drones, etc.)
• Image acquisition techniques and data characteristics

Module 3: Image Preprocessing and Enhancement

• Image preprocessing techniques (georeferencing, orthorectification)
• Image enhancement techniques (contrast adjustment, filtering)
• Quality assessment and improvement of remote sensing data

Module 4: Introduction to GIS and Spatial Data

• Basics of geographic information systems (GIS)
• Spatial data models and formats (vector, raster)
• Data acquisition and sources (field surveys, open data repositories)

Module 5: Geospatial Data Processing and Management

• Data preprocessing and quality control
• Geodatabase design and management
• Spatial data integration and fusion

Module 6: Spatial Analysis Techniques

• Spatial interpolation and modeling
• Spatial statistics and hotspot analysis
• Network analysis and spatial optimization

Module 7: Remote Sensing for Environmental Health

• Monitoring air and water quality using remote sensing
• Detection and mapping of vector-borne diseases
• Land cover change analysis for public health studies

Module 8: Disease Mapping and Spatial Epidemiology

• Principles of disease mapping
• Spatial clustering and disease hotspot detection
• Spatial analysis of disease risk factors

Module 9: Remote Sensing and GIS in Disease Surveillance

• Use of satellite imagery for disease surveillance
• Monitoring disease outbreaks and spread
• Real-time monitoring using remote sensing data

Module 10: Spatial Decision Support Systems in Public Health

• Introduction to decision support systems (DSS)
• Designing and developing spatial DSS tools
• Application of DSS in public health planning and resource allocation

Module 11: Geospatial Data Visualization and Cartography

• Principles of effective geospatial data visualization
• Cartographic techniques for public health mapping
• Interactive web mapping for disseminating public health information

Module 12: Spatial Data Quality and Uncertainty

• Assessment and management of spatial data quality
• Handling uncertainties in remote sensing and GIS data
• Communicating data quality and uncertainty to stakeholders

Module 13: Remote Sensing and GIS in Epidemiological Studies

• Utilizing remote sensing for disease risk modeling
• GIS-based exposure assessment in epidemiology
• Linking environmental factors with health outcomes using geospatial methods

Module 14: Remote Sensing and GIS for Health Services Planning

• Optimizing healthcare facility locations using GIS
• Accessibility analysis for healthcare services
• Health infrastructure planning and resource allocation

Module 15: Spatiotemporal Analysis and Modeling

• Spatiotemporal data analysis techniques
• Temporal analysis of disease trends
• Modeling disease spread and dynamics using GIS and remote sensing

Module 16: Remote Sensing and GIS for Disaster Management

• Role of remote sensing and GIS in disaster response and recovery
• Damage assessment and vulnerability mapping using geospatial technologies
• Emergency preparedness and planning with remote sensing and GIS

Module 17: Geospatial Analysis of Social Determinants of Health

• Spatial analysis of social and environmental determinants of health
• Health inequality mapping and analysis
• Geodemographic profiling for public health interventions

Module 18: Remote Sensing and GIS for Vector-Borne Disease Control

• Remote sensing applications for vector habitat mapping
• GIS-based modeling and prediction of vector-borne diseases
• Targeted intervention planning using geospatial techniques

Module 19: Spatial Epidemiology of Non-Communicable Diseases

• Exploring the spatial patterns of non-communicable diseases
• GIS-based analysis of risk factors for non-communicable diseases
• Geospatial approaches for prevention and control of non-communicable diseases

Module 20: Remote Sensing and GIS in Health Impact Assessment

• Integrating remote sensing and GIS in health impact assessment (HIA)
• Analyzing the spatial distribution of health impacts
• Geospatial tools for HIA decision-making

Module 21: Remote Sensing and GIS for Infectious Disease Modeling

• Remote sensing data for infectious disease modeling
• GIS-based modeling of disease transmission dynamics
• Estimating disease burden and forecasting using geospatial methods

Module 22: Participatory Mapping and Citizen Science in Public Health

• Engaging communities in data collection and mapping
• Participatory GIS (PGIS) techniques for public health research
• Citizen science and crowdsourcing applications in epidemiology

Module 23: Remote Sensing and GIS for Environmental Health Risk Assessment

• Assessing and mapping environmental health risks using remote sensing
• Exposure modeling and risk assessment with GIS
• Geospatial tools for communicating health risks to stakeholders

Module 24: Geospatial Epidemiology of Air Pollution

• Remote sensing of air pollution indicators
• GIS-based analysis of air pollution and health outcomes
• Planning interventions to mitigate air pollution-related health risks

Module 25: Remote Sensing and GIS in Occupational Health Studies

• Application of remote sensing for monitoring occupational health hazards
• GIS-based analysis of occupational health outcomes
• Workplace exposure assessment using geospatial techniques

Module 26: Remote Sensing and GIS for Waterborne Disease Surveillance

• Remote sensing of water quality parameters
• GIS-based analysis of waterborne disease outbreaks
• Source water protection and management using geospatial methods

Module 27: Geospatial Analysis of Urban Health

• Spatial analysis of health issues in urban environments
• Urban health disparities and environmental justice
• Urban planning and design interventions using remote sensing and GIS

Module 28: Remote Sensing and GIS in Mental Health Research

• Assessing the impact of environmental factors on mental health using remote sensing
• GIS-based analysis of mental health service accessibility
• Spatial modeling of mental health indicators

Module 29: Remote Sensing and GIS in Global Health

• Utilizing remote sensing and GIS for global health monitoring and surveillance
• Mapping disease burden and healthcare infrastructure in low-resource settings
• Geospatial approaches for achieving the Sustainable Development Goals (SDGs)

Module 30: Future Trends and Challenges in Remote Sensing and GIS for Public Health

• Emerging technologies and trends in remote sensing and GIS
• Ethical considerations and privacy concerns in geospatial health research
• Addressing challenges and advancing the field of geospatial epidemiology

 

Methodology

The instructor led trainings are delivered using a blended learning approach and comprises of presentations, guided sessions of practical exercise, web-based tutorials and group work. Our facilitators are seasoned industry experts with years of experience, working as professional and trainers in these fields.

All facilitation and course materials will be offered in English. The participants should be reasonably proficient in English.

Certification

Upon successful completion of this training, participants will be issued with Steady Development Centre certificate.

Training Venue

The training will be held at Steady Development Centre. The course fee covers the course tuition, training materials, two break refreshments and lunch.

All participants will additionally cater for their, travel expenses, visa application, insurance, and other personal expenses.

Accommodation and Airport Pickup

Accommodation and airport pickup are arranged upon request. For reservations contact the training officer.

• Email: training@steadydevelopmentcentre.com
• Mobile: +254 718108851

 

Tailor- Made

This training can also be customized to suit the needs of your institution upon request. You can have it delivered in our Steady Development Centre or at a convenient location.

Payment

The course fee payment should be transferred to Steady Development Centre account through bank, 3 working days before commencement of the training so as to enable us to prepare better.

For further inquiries, please contact us on:

• Tel: +254 718108851
• Email: training@steadydevelopmentcentre.com

Our Upcoming Training Schedule