This　paper　studies　the　event-triggered　control　for　switched　systems　(SSs)　subject　to　external　disturbance　and　DoS　attacks.　The　adopted　long　short-term　memory　(LSTM)　neural　network　with　a　special　gate　unit　structure　has　the　ability　to　selectively　forget　and　retain　data　information.　It　is　used　to　approximate　the　external　disturbance,　and　by　this　offline-trained　network　approximation,　the　controller　is　compensated　to　eliminate　the　disturbance.　The　utilized　resilient　event-triggering　strategy　(RETS)　can　ease　network　communication　burden　and　reduce　the　impact　of　DoS　attacks.　Further,　Zeno　phenomenon　is　avoided　by　calculating　the　positive　lower　limit　of　time　intervals　between　successive　triggers.　Moreover,　a　unified　expression　that　combines　switched　subsystems　subject　to　DoS　attacks　is　proposed.　Then,　sufficient　conditions　for　guaranteeing　the　stability　of　SSs　are　derived.　Furthermore,　the　design　criteria　for　controller　gains　is　given　using　matrix　inequalities　method.　Finally,　a　simulation　example　is　presented　to　validate　the　feasibility　and　correctness　of　the　proposed　method.　©　2024　Elsevier　Ltd