Lasting sequelae are identified in 50% of child survivors of cerebral malaria (CM). Rehabilitation options in malaria-endemic regions are scarce and largely focused on physical deficits, leaving children without support for cognitive recovery. Effective and accessible interventions are vital for improving outcomes. Furthermore, the assessment of brain function and recovery after CM is dependent on behavior-based tests that are time-consuming and require substantial training to administer. Objective, easy-to-use alternatives may be impactful. Children aged 3-12 years who had survived CM were recruited. Participants underwent a 6-month in-home, tablet-based neurorehabilitation program called Dino Island (DI). Participants also underwent serial assessments of brain health that were conducted by measuring event-related potentials (ERPs) using the Brain Vital Signs system. The feasibility, fidelity, acceptability, appropriateness, and affordability of the interventions were evaluated through interviews with the study nurses and the participants' families. Both programs were feasible and easy to implement. Acceptability was demonstrated by low attrition rates (5%) and positive family ratings (100%). Appropriateness for DI was confirmed by parent reports of positive behavioral changes in their children (60%). For Brain Vital Signs, appropriateness was confirmed by adequate data acquisition for most participants. Finally, positive indicators of affordability from a healthcare perspective were identified. Neurorehabilitation using a home tablet-based program and objective brain health assessment using ERPs was feasible, well accepted, and appropriate in child CM survivors in sub-Saharan Africa. Further development and research into the program's ability to improve and measure cognitive recovery is justified.