Incorporation of the Multiple Integrated Laser Engagement System (MILES) into Warfighter training can result in enhanced learning and performance over non-MILES training. MILES is designed to mimic active battle during Force on Force training by simulating weapon lethality and providing real-time casualty assessment. However, MILES integration for area coverage weaponry is largely nonexistent.  This paper outlines the development, challenges, and benefits of incorporating MILES into such weaponry. Among these challenges are variation in MILES capability between and within training centers, with older hardware being unable to recognize some weapons-specific signals, and how MILES hardware processes received signals. MILES uses a random number roll and causality probability look up table to determine lethality of an encounter, making it difficult to simulate reliable lethality. The development of the Claymore Training Aids, Devices, Simulators, and Simulations (TADSS) system was able to successfully incorporate a MILES Emitter Unit (MEU) to replicate the lethal area coverage of the tactical Claymore through a combination of lasers and LEDs to send MILES signals. A test emitter was developed that permitted modification to the signal emitted by the MEU, power levels, and angles of engagement with MILES equipment. Extensive field testing involving firing the MEU over various distances and orientations at MILES hardware was conducted to verify characterization of the MEU signature. Additional testing showed reliability over a range of environmental and light conditions. The MEU was ultimately able to induce MILES response over the kill area over 80% of the time while accurately replicating Claymore effective range. The methodology and test data obtained during this development can provide a pathway for the creation of future training systems to be integrated with MILES, providing more realistic simulation of weapon lethality for soldiers in training.