Abstract
Routing systems for outdoor space have become the focus of many research works. Such routing systems are based on spatial road networks where moving objects (such as cars) are affected by the directed roads and the movement of traffic, which may include traffic jams. Indoor routing, on the other hand, must take into account the features of indoor space such as walls and rooms. In this paper, we take indoor routing in a new direction whereby we consider the features that a building has in common with outdoor spaces. Inside some buildings, there may be directed floors where moving objects must move in a certain direction through directed corridors in order to reach a certain location. For example, on train platforms or in museums, movement in the corridors may be directed. In these directed floor spaces, a routing system enabling a visitor to take the shortest path to a certain location is essential. Therefore, this work proposes a new approach for buildings with directed indoor spaces, where each room can be affected by the density of the moving objects. The proposed system obtains the shortest path between objects or rooms taking into consideration the directed indoor space and the capacity of the objects to move within each room/cell.
Highlights
With the advanced enhancements of the current positioning devices such as RFID, Bluetooth and WiFi, the concentration on the data structures of indoor spaces and the querying for spatial objects have become important foundations for many applications [1,2,3]
This paper addresses the challenge of routing in directed indoor spaces
There are many buildings in which the movement of objects is direction-restricted. This is evident on some train station platforms, museums or stores (e.g., IKEA)
Summary
With the advanced enhancements of the current positioning devices such as RFID, Bluetooth and WiFi, the concentration on the data structures of indoor spaces and the querying for spatial objects have become important foundations for many applications [1,2,3]. Most of the current research on indoor spaces has not considered the directed indoor spaces [9,10], in many buildings, the movement of the objects is directed. We propose a new routing structure for objects moving in directed indoor spaces. The dense cells in an indoor environment in data structures must be taken into consideration as this can increase system accuracy [5,6,11] This is greatly invested in outdoor spaces’ traffic, where any traffic jam will be considered in the routing time.
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