Workflow Activity Monitoring Using Dynamics of Pair-Wise Qualitative Spatial Relations

Abstract

We present a method for real-time monitoring of workflows in a constrained environment. The monitoring system should not only be able to recognise the current step but also provide instructions about the possible next steps in an ongoing workflow. In this paper, we address this issue by using a robust approach (HMM-pLSA) which relies on a Hidden Markov Model (HMM) and generative model such as probabilistic Latent Semantic Analysis (pLSA). The proposed method exploits the dynamics of the qualitative spatial relation between pairs of objects involved in a workflow. The novel view-invariant relational feature is based on distance and its rate of change in 3D space. The multiple pair-wise relational features are represented in a multi-dimensional relational state space using an HMM. The workflow monitoring task is inferred from the relational state space using pLSA on datasets, which consist of workflow activities such as ‘hammering nails’ and ‘driving screws’. The proposed approach is evaluated for both ‘off-line’ (complete observation) and ‘on-line’ (partial observation). The evaluation of the novel approach justifies the robustness of the technique in overcoming issues of noise evolving from object tracking and occlusions.KeywordsQualitative Spatio-temporal RelationsWorkers InstructionsActivity RecognitionHidden Markov Model (HMM)Probabilistic Latent Scemantic Analysis (pLSA)