Abstract
Mapping with surveying equipment is a time-consuming and cost-intensive procedure that makes the frequent map updating unaffordable. In the last few years, much research has focused on eliminating such problems by counting on crowdsourced data, such as GPS traces. An important source of information in maps, especially under the consideration of forthcoming self-driving vehicles, is the traffic regulators. This information is largely lacking in maps like OpenstreetMap (OSM) and this article is motivated by this fact. The topic of this systematic literature review (SLR) is the detection and recognition of traffic regulators such as traffic lights (signals), stop-, yield-, priority-signs, right of way priority rules and turning restrictions at intersections, by leveraging non imagery crowdsourced data. More particularly, the aim of this study is (1) to identify the range of detected and recognised regulatory types by crowdsensing means, (2) to indicate the different classification techniques that can be used for these two tasks, (3) to assess the performance of different methods, as well as (4) to identify important aspects of the applicability of these methods. The two largest databases of peer-reviewed literature were used to locate relevant research studies and after different screening steps eleven articles were selected for review. Two major findings were concluded—(a) most regulator types can be identified with over 80% accuracy, even using heuristic-driven approaches and (b) under the current progress on the field, no study can be reproduced for comparative purposes nor can solely rely on open data sources due to lack of publicly available datasets and ground truth maps. Future research directions are highlighted as possible extensions of the reviewed studies.
Highlights
In recent years there has been an explosion of interest in creating and sharing geographic information by individuals that have been described as sensors—citizens as sensors who can capture various measurements at their local environments [1]
We identified six different regulator categories that are detected with crowdsensing means—traffic lights (TL), stop signs (SS), right of way rules (RW) for uncontrolled intersections, turning restrictions (TR), priority sign (PS) and yield sign (YS)
Non-imagery data are “lightweight” data in terms of data transfer and processing from the involved data collection participants and the data capture devices being used for the task
Summary
In recent years there has been an explosion of interest in creating and sharing geographic information by individuals that have been described as sensors—citizens as sensors who can capture various measurements at their local environments [1]. Since the establishment of smartphones and social media, this phenomenon has been growing only bigger and faster and the technology of an expensive work task being carried out by a group of people, known as crowdsourcing, is here to stay [2]. Individuals contribute this information voluntarily, with most known volunteered geographic information (VGI) initiative the OpenStreetMap (OSM). Either with minimum or major awareness and involvement, in a sensing system (opportunistic and participatory respectively) [4] volunteers can gather fast lots of geographic information that can be processed for many purposes. Other popular topics based on crowdsourced data concern parking spot occupancy estimations [9], traffic state estimation [10], environmental noise monitoring [11,12], fuel-efficient map applications [13], and traffic condition sensing (bumps, potholes, hard braking, honking) based either on mobile devices [12] or on sensor-equipped vehicles [14], to name a few
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
