In this work, a novel bio-inspired meta-heuristic framework is presented for the assessment of linear and non-linear multi-term fractional differential equations (MFDEs) based on the idea of residual power series method (RPSM) in amalgamation with the bat algorithm (BATA) which, mimics the echolocation behavior of the foraging bats.The bat-inspired based methodology has been implemented to solve MFDEs with different possible variants of two point viking k2 slide gate operator boundary conditions.The BATA is utilized in the recommended new residual optimization technique (NROT) for the minimization of the energy function attained by the spirit of RPSM.Moreover, to ratify the correctness and accuracy of the deliberated technique the results are evaluated by using two other meta-heuristic optimization techniques i.
e., differential evolution algorithm (DEA) and indefinitely baby opi the accelerated particle swarm optimization algorithm (APSOA) for the learning of unknown weights in the derived fitness function.The accuracy and competency of the NROT is validated by comparing the BATA computed results with the exact solution and the corresponding data acquired by the DEA and APSOA.Furthermore, detailed performance analysis is performed through statistical inference based on the large number of independent runs.