The emergence of intelligent transportation systems and the availability of detailed past trips and real-time data enabled more accurate travel time prediction algorithms. Passengers of public transportation highly value reliable service and accurate travel information. Unexpected delays while traveling impact traveler satisfaction enormously. We present a novel approach for a travel time prediction model for public transit in an urban setting. For this, we extended the existing profile similarity model based on k-medoids clustering and augmented it for an urban regions. The algorithm integrates real-time data from preceding vehicles traveling on the same links with a Kalman filter. Hence, the developed model uses the information available in modern ITS by combining historic travel time profiles with real-time data. While the algorithm focuses on short-term predictions, we have also evaluated it for long-term forecasts. Our results show that the proposed model outperforms benchmark models regarding certain criteria and can provide accurate travel times with comparably low-volume data input. Furthermore, the results indicate that the combination of a Kalman filter with a k-medoids approach improves the quality of the predictions.