In Taiwan, the registration number of private vehicles is about 5,640,000 by 2010. When drivers are going out in holidays, it is usually hard to find parking spaces. Spending time to find and wait for parking spaces also leads to bad moods. This thesis proposes a parking management system using the wireless sensor network technology. It assists car owners to conveniently find parking spaces and makes the manager easily understand the parking situation. The system was implemented on a platform based on a TI OMAP3530 processor. The sensor node was composed of an XBee module, an Arduino board, and a battery box. All sensor nodes communicate with the platform through ZigBee Protocol. When drivers are entering a parking garage, a center server provides a map showing the status of parking spaces to the platform through an XBee module. The driver can quickly know where the available parking space is. The parking information at the website is also immediately updated, and the manager is easy to know the status of parking spaces. To analyze which parking lot is occupied, a localization approach was developed and verified by real tests. According to the received signal strength indication (RSSI) values from the sensor nodes around the parking space, the embedded system will calculate which parking lot is occupied by k-nearest neighbor (KNN) algorithm. The system was set up in the parking garage of national health research institute (NHRI). The average detection ratio was above 90%, and it can be a practical application as a solution for parking management.