LOGISTICS

MYMIC's Logistics Sector supports modeling and analysis of complex logistical networks for military, government and commercial customers. We start with clearly identifying and articulating that a customer wants us to solve. We do a comprehensive front-end analysis of a customer's logistical network to identify key nodes and links and related infrastructure, resources and processes. We then develop a software model for the real-world network and provide detailed analyses using data generated by the model.

MYMIC has developed its proprietary technology, The Scalable End-to-End Logistics Simulation (SEELS™) architecture, to support modeling end-to-end logistics for use in planning, analysis, and experimentation. SEELS™ is a scalable, nodal, and programmable architecture that allows us to model cargo (containers, vehicles, people, etc.), infrastructure (airports, seaports, warehouses, distribution centers) and resources (cranes, straddle carriers, etc.). The SEELS™ architecture can be used to model item flow through any terminal or logistical node, either military or commercial. The definition of a node is limited only by the user's requirements; thus a node may be an entire seaport or a single fueling point along a highway. A set of nodes can then be linked via different transportation modes to model a complete, multimodal logistical operation as a logistical network or flow. Further, separate logistical operations can be linked to form an integrated, highly scalable, network-of-networks model.
Once a logistical plan is modeled within SEELS™, users may run extremely high-speed simulations. SEELS™ executes the movement of hundreds of thousands of items in only a few minutes, allowing users to run repeated simulations of logistical plans applying different assumptions or modifications. SEELS™ reports the results of these simulations in user selected criteria, such as throughput, wait times, time to execute, arrival profiles, or costs.