ObjectiveTo simulate a uterine contraction using a novel computer model for uterine communication and to validate the assumptions of the computer model by comparing the simulated contraction with a real uterine contraction.MethodsThe computer model assumed two known mechanisms of intercellular communication: action potential propagation and calcium wave propagation. Simulations were performed on a desktop computer using available programming language. Model validity was assessed by fitting the computer-simulated contraction to a real contraction and comparing the fit values with values measured independently.ResultsThe simulated contraction demonstrated five characteristics that are also observed in human labor: 1) gradual onset, 2) a linear rising segment, 3) a plateau region, 4) a symmetrical fall, and 5) gradual offset. The fit values agreed well with values determined experimentally and supported the model.ConclusionsOur results support the model, strongly suggesting that intercellular communication occurs throughout the uterus by action potentials and locally within the tissue by calcium waves.