ATTRACT RANK: DISTRICT ATTRACTION RANKING ANALYSIS BASED ON TAXI BIG DATA

Abstract : The city’s district attraction ranking plays an essential role in the city’s government because it can be used to reveal the city’s district attraction and thus help government make decisions for urban planning in terms of the smart city. The traditional methods for urban planning mainly rely on the district’s GDP, employment rate, population density, information from questionnaire surveys and so on. However, as a comparison, such information is becoming relatively less informative as the explosion of an increasing amount of urban data. What’s more, there is a serious shortcoming in these methods, i.e., they are independent representations of the attraction of a district and do not take into account the interaction among districts. With the development of urban computing, it is possible to make good use of urban data for urban planning. To this end, based on taxi big data obtained from Guangzhou, China, this paper proposes a district attraction ranking approach called Attract Rank, which for the first time uses taxi big data for district ranking. An application system is developed for demonstration purposes. Firstly, the entire Guangzhou city is divided into a number of districts by using Constrained K-means. Secondly, the original Page Rank algorithm is extended to integrate with the taxi’s OD (origin-destination) points to establish the OD matrix, whereby the attraction ranking of each district can be calculated. Finally, by visualizing the results and case studies obtained from Attract Rank, we can successfully obtain the pattern of how attractions of districts change over time and interesting discoveries on urban lives, therefore it has wide applications in urban planning and urban data mining.
 EXISTING SYSTEM :
 ? Different computing modes have different computation and communication capacities and how to integrate and utilize these computing modes with existing big data infrastructures remains challenging. ? However, more errors may exist in the collected due to the device fault or misjudgement caused by passenger’s strange behaviors. ? Existing data for traffic estimation and prediction tasks are heterogeneous in the spatial and temporal ranges.
 DISADVANTAGE :
 ? Its goal is to use data from various sources to solve some of the problems encountered in today’s urbanization process, such as air pollution, traffic congestion, and energy waste. ? The problem we are studying in this paper, namely the nature of the city’s region, is one of the key challenges in this research direction. ? This work made the breakdown of flow patterns instead of the impact of the place in attracting visitors, which is our aim in this paper.
 PROPOSED SYSTEM :
 • A study proposed a method for measuring the centrality of locations that incorporates the number of people attracted to the location and the diversity of activities in which visitors engaged. • The proposed system aims to identify fuel-saving paths according to request from passengers and current routes in progress, and reduce the amount of vehicles in circulation. • They also highlighted the need for a frequent in-situ calibration to maintain the consistency of some sensors, therefore a procedure for a field calibration is proposed.
 ADVANTAGE :
 ? It confirms that our algorithm can be used to explore the lifestyle of different city districts. ? We pre processed the taxi data and used the technique of converting the GPS coordinates into the plane rectangular coordinate system, extracting the OD pairs and saving them to the database. ? This is a big advantage over GPS data, where privacy is a serious concern and is the primary reason for limited coverage. This advantage allows researchers to capture high coverage of trips and develop generalizable methods, while preserving the privacy of users’ data.

Attract Rank District Attraction Ranking Analysis Based on Taxi Big Data

Abstract : The city’s district attraction ranking plays an essential role in the city’s government because it can be used to reveal the city’s district attraction and thus help government make decisions for urban planning in terms of the smart city . The traditional methods for urban planning mainly rely on the district’s GDP, employment rate, population density, information from questionnaire surveys and so on. However, as a comparison , such information is becoming relatively less informative as the explosion of an increasing amount of urban data. With the development of urban computing, it is possible to make good use of urban data for urban planning. To this end, based on taxi big data obtained from Guangzhou, China, this paper proposes a district attraction ranking approach called Attract Rank, which for the first time uses taxi big data for district ranking. An application system is developed for demonstration purposes.
 EXISTING SYSTEM :
 ? With the rapidly growing population in urban areas, these days the urban road networks are expanding at a faster rate. ? The frequent movement of people on them leads to traffic congestions. These congestions originate from some crowded road segments, and diffuse towards other parts of the urban road networks creating further congestions. ? This behavior of road networks motivates the need to understand the influence of individual road segments on others in terms of congestion. In this work, we propose Road Rank, an algorithm to compute the influence scores of each road segment in an urban road network, and rank them based on their overall influence.
 DISADVANTAGE :
 ? Its goal is to use data from various sources to solve some of the problems encountered in today’s urbanization process , such as air pollution ? In the era of big data, data-driven application has become a feature in many areas, such as wastewater treatment process. ? he development of network theory and the emergence of various data such as social data, migration data, taxi operating data and smartcard data, statistical analysis of network and flows between locations can be conducted. ? Based on the aforementioned data , a research direction called smart city has emerged
 PROPOSED SYSTEM :
 ? In this paper proposes a district attraction ranking approach called Attract Rank, which for the first time uses taxi big data for district ranking . ? Taxis are viewed as sensors of the city traffic situation. There fore we treat them as reasonable sampling of real traffic flow and use them to study the vehicles’ travel behaviour. ? We propose a ranking based visual analysis method to study taxi travel behaviour on a route . ? We develop an interactive system to support ranking based explorations of taxi travel behaviour, and we evaluate it with use cases and a user study.
 ADVANTAGE :
 ? We proposed an attractive area clustering algorithm based on grid density. Based on taxi spatio-temporal trajectory data , Mouet al. ? we propose a district attraction ranking method called Attract Rank, which is the first attempt to use taxi big data for district ranking as well as to overcome some shortcomings of the existing related methods. ? To this end, based on taxi big data obtained from Guangzhou, China, this paper proposes a district attraction ranking approach called Attract Rank, which for the first time uses taxi big data for district ranking. An application system is developed for demonstration purposes

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