Reservoir computing (RC) has emerged an efficient architecture for supervised learning by training only the output weights. We demonstrate such a physical RC device using single-walled carbon nanotube/porphyrin-polyoxometalate random network in this work. By using the time-series tactile input grasping data of Toyota Human Support Robot, we succefully implemented the supervised prediction of one-hot-vector object classification of different hardness. We infer that intrinsic properties of non-linearity, high dimensionality and excho-state property of the material are indeed important for such reservoir learning and hence can be utilised for higher complex cognitive tasks in the near future.