Malaria control programmes rely on interventions targeting mosquito-breeding sites to reduce mosquito populations and malaria transmission. These approaches require precisely locating the water bodies and potential breeding sites. Low-cost drones represent a new potential source of data for mapping land use and identifying breeding sites. However, the use of drones for public health is still in its infancy and needs guidance on technical requirements and image analysis methods as well as the feasibility and acceptability of employing these methods in communities.

This collaborative network brings together experts to support the integration and evaluation of drone technology to support malaria vector control programmes. We are a multidisciplinary network of researchers using drones for malaria control and risk mapping in South America, Southeast Asia and sub-Saharan Africa. By developing guidelines for the use of drones and analysis of resulting imagery, we aim to overcome technical barriers for implementation.

Development of guidelines and resources

We are assessing methods of analysing drone imagery (including manual digitisation, image segmentation approaches, automatic thresholding, automatic and manual generation of training data, application of machine learning/AI approaches). These are applied to different combinations of data collected, including visible, multispectral, thermal imagery and derived indices. We are comparing accuracy, costs, technical requirements and limitations for implementation and developing platforms to share materials.

Community acceptability

Effective use of drones may be limited by community perceptions and acceptability. Public attitudes surveys will be conducted with community members to explore issues relating to land rights, technology use and permissions. Economic feasibility will be assess using a basic cost analysis comparing cost and accuracy of identification of habitats by aerial vs ground-based surveys. Based on these interviews, we will develop guidelines to assess socioeconomic barriers to drone implementation.

Case study in the Peruvian Amazon

Using the Peruvian Amazon as a case-study, we are exploring the use of different sensors and analytical approaches to identify suitable water bodies for anopheline larvae. Amazon basin is a priority area for malaria control in the Americas and provides a unique ecological setting to assess a range of mosquito breeding sites (natural – artificial), forest coverage, hydrology profiles and malaria transmission.

Planned for 2020, this pilot study will be used to collect sample imagery and develop an operational workflow for data collection, including flight planning, immediate processing for data quality and identification of limitations in extreme weather conditions and difficult terrain.