6533b858fe1ef96bd12b633e
RESEARCH PRODUCT
Evaluation of the Use of a City Center through the Use of Bluetooth Sensors Network
Juan José Marténez DuráAntonio Garcia CeldaRamón Vicente Cirilo GimenoJavier Martinez PlumeFrancisco Ramón Soriano Garcíasubject
Computer scienceGeography Planning and DevelopmentReal-time computinglcsh:TJ807-8300211 other engineering and technologieslcsh:Renewable energy sourcestraffic management02 engineering and technologyManagement Monitoring Policy and Lawvehicle and pedestrian travel timelaw.inventionBluetoothlawSmart city0502 economics and businessDesenvolupament sostenibleDisseny urbàlcsh:Environmental scienceslcsh:GE1-350050210 logistics & transportationRenewable Energy Sustainability and the EnvironmentMAC addressbluetooth sensorlcsh:Environmental effects of industries and plants05 social sciences021107 urban & regional planningvalencia city centerlcsh:TD194-195smart cityOrder (business)mobility studies using BTCirculacióOrigin-Destination matricesMobile devicedescription
In order to achieve the objectives of Smart Cities, public administrations need to take measures to regulate mobility, which undoubtedly requires a high level of information and sensorization. Until the implementation of the connected vehicle takes place, it is still necessary to install sensors to obtain information about mobility. Bluetooth sensors are becoming a useful tool due to the low cost of equipment and installation. The use of Bluetooth sensors in cities, with short distances between sensors, makes it necessary to propose new classification algorithms that allow the trips of pedestrians and vehicles to be differentiated. This article presents the study carried out in the city of Valencia to determine the use of motor vehicles in the historic center and propose a new classification algorithm to distinguish between an onboard Bluetooth device and the same device carried by a pedestrian when it is not possible to use the travel time for the classification due to the short distance between sensors. This causes very similar or even indistinguishable travel times for vehicles and for pedestrians. We also propose an algorithm that allows vehicles to be classified according to what type of trip is made always through the historical center of Valencia, whether it is to make a shorter itinerary through the city or to access the center for any type of business. This algorithm would enable the Origin-Destination matrix of an urban network with short distances between sensors if they are available in all entries and exits. Likewise, the results obtained have allowed to positively evaluate the algorithm defined to distinguish between trips made by a pedestrian or a vehicle in a city, using the MAC address of their mobile devices with very short distances among sensors. The results of this study show that it is possible to use Bluetooth technology, with low cost installations, to evaluate the use of the city by motor vehicles.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2019-02-15 | Sustainability |