7,762 research outputs found
Towards Structured Analysis of Broadcast Badminton Videos
Sports video data is recorded for nearly every major tournament but remains
archived and inaccessible to large scale data mining and analytics. It can only
be viewed sequentially or manually tagged with higher-level labels which is
time consuming and prone to errors. In this work, we propose an end-to-end
framework for automatic attributes tagging and analysis of sport videos. We use
commonly available broadcast videos of matches and, unlike previous approaches,
does not rely on special camera setups or additional sensors.
Our focus is on Badminton as the sport of interest. We propose a method to
analyze a large corpus of badminton broadcast videos by segmenting the points
played, tracking and recognizing the players in each point and annotating their
respective badminton strokes. We evaluate the performance on 10 Olympic matches
with 20 players and achieved 95.44% point segmentation accuracy, 97.38% player
detection score ([email protected]), 97.98% player identification accuracy, and stroke
segmentation edit scores of 80.48%. We further show that the automatically
annotated videos alone could enable the gameplay analysis and inference by
computing understandable metrics such as player's reaction time, speed, and
footwork around the court, etc.Comment: 9 page
A Survey of Deep Learning in Sports Applications: Perception, Comprehension, and Decision
Deep learning has the potential to revolutionize sports performance, with
applications ranging from perception and comprehension to decision. This paper
presents a comprehensive survey of deep learning in sports performance,
focusing on three main aspects: algorithms, datasets and virtual environments,
and challenges. Firstly, we discuss the hierarchical structure of deep learning
algorithms in sports performance which includes perception, comprehension and
decision while comparing their strengths and weaknesses. Secondly, we list
widely used existing datasets in sports and highlight their characteristics and
limitations. Finally, we summarize current challenges and point out future
trends of deep learning in sports. Our survey provides valuable reference
material for researchers interested in deep learning in sports applications
Efficient tracking of team sport players with few game-specific annotations
One of the requirements for team sports analysis is to track and recognize
players. Many tracking and reidentification methods have been proposed in the
context of video surveillance. They show very convincing results when tested on
public datasets such as the MOT challenge. However, the performance of these
methods are not as satisfactory when applied to player tracking. Indeed, in
addition to moving very quickly and often being occluded, the players wear the
same jersey, which makes the task of reidentification very complex. Some recent
tracking methods have been developed more specifically for the team sport
context. Due to the lack of public data, these methods use private datasets
that make impossible a comparison with them. In this paper, we propose a new
generic method to track team sport players during a full game thanks to few
human annotations collected via a semi-interactive system. Non-ambiguous
tracklets and their appearance features are automatically generated with a
detection and a reidentification network both pre-trained on public datasets.
Then an incremental learning mechanism trains a Transformer to classify
identities using few game-specific human annotations. Finally, tracklets are
linked by an association algorithm. We demonstrate the efficiency of our
approach on a challenging rugby sevens dataset. To overcome the lack of public
sports tracking dataset, we publicly release this dataset at
https://kalisteo.cea.fr/index.php/free-resources/. We also show that our method
is able to track rugby sevens players during a full match, if they are
observable at a minimal resolution, with the annotation of only 6 few seconds
length tracklets per player.Comment: Accepted to 2022 8th International Workshop on Computer Vision in
Sports (CVsports 2022
INTELLIGENT COMPUTER VISION SYSTEM FOR SCORE DETECTION IN BASKETBALL
Development of an intelligent computer vision system for Smart IoT basketball training and entertainment includes the development of a range of various subsystems, where score detection subsystem is playing a crucial role. This paper proposes the architecture of such a score detection subsystem to improve reliability and accuracy of the RFID technology used primarily for verification purposes. Challenges encompass both hardware-software interdependencies, optimal camera selection, and cost-effectiveness considerations. Leveraging machine learning algorithms, the vision-based subsystem aims not only to detect scores but also to facilitate online video streaming. Although the use of multiple cameras offers expanded field coverage and heightened precision, it concurrently introduces technical intricacies and increased costs due to image fusion and escalated processing requirements. This research navigates the intricate balance between achieving precise score detection and pragmatic system development. Through precise camera configuration optimization, the proposed system harmonizes hardware and software components
SoccerNet-Tracking: Multiple Object Tracking Dataset and Benchmark in Soccer Videos
Tracking objects in soccer videos is extremely important to gather both
player and team statistics, whether it is to estimate the total distance run,
the ball possession or the team formation. Video processing can help automating
the extraction of those information, without the need of any invasive sensor,
hence applicable to any team on any stadium. Yet, the availability of datasets
to train learnable models and benchmarks to evaluate methods on a common
testbed is very limited. In this work, we propose a novel dataset for multiple
object tracking composed of 200 sequences of 30s each, representative of
challenging soccer scenarios, and a complete 45-minutes half-time for long-term
tracking. The dataset is fully annotated with bounding boxes and tracklet IDs,
enabling the training of MOT baselines in the soccer domain and a full
benchmarking of those methods on our segregated challenge sets. Our analysis
shows that multiple player, referee and ball tracking in soccer videos is far
from being solved, with several improvement required in case of fast motion or
in scenarios of severe occlusion.Comment: Paper accepted for the CVsports workshop at CVPR2022. This document
contains 8 pages + reference
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