-
CiteScore
3.0
Impact Factor
Volume 1, Issue 1 (Online First) - Table of Contents

×
The IECE Transactions on Emerging Topics in Artificial Intelligence (TETAI) is a peer-reviewed international journal publishing papers on emerging theories and methodologies of Artificial Intelligence.
Citations: 15, 15   |   Viewed: 7730, Download: 822

Code (Data) Available | Free Access | Research Article | Feature Paper | 09 August 2024
LI3D-BiLSTM: A Lightweight Inception-3D Networks with BiLSTM for Video Action Recognition
IECE Transactions on Emerging Topics in Artificial Intelligence | Volume 1, Issue 1: 58-70, 2024 | DOI:10.62762/TETAI.2024.628205
Abstract
This paper proposes an improved video action recognition method, primarily consisting of three key components. Firstly, in the data preprocessing stage, we developed multi-temporal scale video frame extraction and multi-spatial scale video cropping techniques to enhance content information and standardize input formats. Secondly, we propose a lightweight Inception-3D networks (LI3D) network structure for spatio-temporal feature extraction and design a soft-association feature aggregation module to improve the recognition accuracy of key actions in videos. Lastly, we employ a bidirectional LSTM network to contextualize the feature sequences extracted by LI3D, enhancing the representation capa... More >

Graphical Abstract
LI3D-BiLSTM: A Lightweight Inception-3D Networks with BiLSTM for Video Action Recognition

Free Access | Research Article | Feature Paper | 29 May 2024
CT-DETR and ReID-Guided Multi-Target Tracking Algorithm in Complex Scenes
IECE Transactions on Emerging Topics in Artificial Intelligence | Volume 1, Issue 1: 44-57, 2024 | DOI:10.62762/TETAI.2024.240529
Abstract
In the era of rapid technological advancement, the demand for sophisticated Multi-Object Tracking (MOT) systems in applications such as intelligent surveillance and autonomous navigation has become increasingly critical.However, existing models often struggle with accuracy and efficiency in densely populated or dynamically complex environments. Addressing these challenges, we introduce a novel deep learning-based MOT model that incorporates the latest CT-DETR detection technology and an advanced ReID module for improved pedestrian tracking. Experimental results demonstrate the model's superior performance in accurately identifying and tracking multiple targets across varied scenarios, signif... More >

Graphical Abstract
CT-DETR and ReID-Guided Multi-Target Tracking Algorithm in Complex Scenes

Free Access | Research Article | Feature Paper | 21 May 2024 | Cited: 4
Improved Object Detection Algorithm Based on Multi-scale and Variability Convolutional Neural Networks
IECE Transactions on Emerging Topics in Artificial Intelligence | Volume 1, Issue 1: 31-43, 2024 | DOI:10.62762/TETAI.2024.115892
Abstract
This paper proposes an improved object detection algorithm based on a dynamically deformable convolutional network (D-DCN), aiming to solve the multi-scale and variability challenges in object detection tasks. First, we review traditional methods in the field of object detection and introduce the current research status of improved methods based on multi-scale and variability convolutional neural networks. Then, we introduce in detail our proposed improved algorithms, including an improved feature pyramid network and a dynamically deformable network. In the improved feature pyramid network, we introduce a multi-scale feature fusion mechanism to better capture target information at different... More >

Graphical Abstract
Improved Object Detection Algorithm Based on Multi-scale and Variability Convolutional Neural Networks

Free Access | Research Article | Feature Paper | 20 April 2024 | Cited: 2
Real-Time Object Detection Using a Lightweight Two-Stage Detection Network with Efficient Data Representation
IECE Transactions on Emerging Topics in Artificial Intelligence | Volume 1, Issue 1: 17-30, 2024 | DOI:10.62762/TETAI.2024.320179
Abstract
In this paper, we introduce a novel fast object detection framework, designed to meet the needs of real-time applications such as autonomous driving and robot navigation. Traditional processing methods often trade-off between accuracy and processing speed. To address this issue, we propose a hybrid data representation method that combines the computational efficiency of voxelization with the detail capture capability of direct data processing to optimize overall performance. Our detection framework comprises two main components: a Rapid Region Proposal Network (RPN) and a Refinement Detection Network (RefinerNet). The RPN is used to generate high-quality candidate regions, while the RefinerN... More >

Graphical Abstract
Real-Time Object Detection Using a Lightweight Two-Stage Detection Network with Efficient Data Representation

Free Access | Research Article | Feature Paper | 07 April 2024 | Cited: 9
YOLOv8-Lite: A Lightweight Object Detection Model for Real-time Autonomous Driving Systems
IECE Transactions on Emerging Topics in Artificial Intelligence | Volume 1, Issue 1: 1-16, 2024 | DOI:10.62762/TETAI.2024.894227
Abstract
With the rapid development of autonomous driving technology, the demand for real-time and efficient object detection systems has been increasing to ensure vehicles can accurately perceive and respond to the surrounding environment. Traditional object detection models often suffer from issues such as large parameter sizes and high computational resource consumption, limiting their applicability on edge devices. To address this issue, we propose a lightweight object detection model called YOLOv8-Lite, based on the YOLOv8 framework, and improved through various enhancements including the adoption of the FastDet structure, TFPN pyramid structure, and CBAM attention mechanism. These improvement... More >

Graphical Abstract
YOLOv8-Lite: A Lightweight Object Detection Model for Real-time Autonomous Driving Systems