Your search keyword '"Rekabdar, Banafsheh"' showing total 5 results

1. Dynamic and Adaptive Feature Generation with LLM

Author

Zhang, Xinhao, Zhang, Jinghan, Rekabdar, Banafsheh, Zhou, Yuanchun, Wang, Pengfei, Liu, Kunpeng, Zhang, Xinhao, Zhang, Jinghan, Rekabdar, Banafsheh, Zhou, Yuanchun, Wang, Pengfei, and Liu, Kunpeng

Abstract

The representation of feature space is a crucial environment where data points get vectorized and embedded for upcoming modeling. Thus the efficacy of machine learning (ML) algorithms is closely related to the quality of feature engineering. As one of the most important techniques, feature generation transforms raw data into an optimized feature space conducive to model training and further refines the space. Despite the advancements in automated feature engineering and feature generation, current methodologies often suffer from three fundamental issues: lack of explainability, limited applicability, and inflexible strategy. These shortcomings frequently hinder and limit the deployment of ML models across varied scenarios. Our research introduces a novel approach adopting large language models (LLMs) and feature-generating prompts to address these challenges. We propose a dynamic and adaptive feature generation method that enhances the interpretability of the feature generation process. Our approach broadens the applicability across various data types and tasks and draws advantages over strategic flexibility. A broad range of experiments showcases that our approach is significantly superior to existing methods.

Published

2024

2. A Survey of AI Music Generation Tools and Models

Author

Zhu, Yueyue, Baca, Jared, Rekabdar, Banafsheh, Rawassizadeh, Reza, Zhu, Yueyue, Baca, Jared, Rekabdar, Banafsheh, and Rawassizadeh, Reza

Abstract

In this work, we provide a comprehensive survey of AI music generation tools, including both research projects and commercialized applications. To conduct our analysis, we classified music generation approaches into three categories: parameter-based, text-based, and visual-based classes. Our survey highlights the diverse possibilities and functional features of these tools, which cater to a wide range of users, from regular listeners to professional musicians. We observed that each tool has its own set of advantages and limitations. As a result, we have compiled a comprehensive list of these factors that should be considered during the tool selection process. Moreover, our survey offers critical insights into the underlying mechanisms and challenges of AI music generation.

Published

2023

3. Predictive Probability Path Planning Model For Dynamic Environments

Author

Dutta, Sourav, Tran, Tuan, Rekabdar, Banafsheh, Ekenna, Chinwe, Dutta, Sourav, Tran, Tuan, Rekabdar, Banafsheh, and Ekenna, Chinwe

Abstract

Path planning in dynamic environments is essential to high-risk applications such as unmanned aerial vehicles, self-driving cars, and autonomous underwater vehicles. In this paper, we generate collision-free trajectories for a robot within any given environment with temporal and spatial uncertainties caused due to randomly moving obstacles. We use two Poisson distributions to model the movements of obstacles across the generated trajectory of a robot in both space and time to determine the probability of collision with an obstacle. Measures are taken to avoid an obstacle by intelligently manipulating the speed of the robot at space-time intervals where a larger number of obstacles intersect the trajectory of the robot. Our method potentially reduces the use of computationally expensive collision detection libraries. Based on our experiments, there has been a significant improvement over existing methods in terms of safety, accuracy, execution time and computational cost. Our results show a high level of accuracy between the predicted and actual number of collisions with moving obstacles.

Published

2020

4. Effects of Self-Avatar and Gaze on Avoidance Movement Behavior

Author

Mousas, Christos, Koilias, Alexandros, Anastasiou, Dimitris, Rekabdar, Banafsheh, Anagnostopoulos, Christos-Nikolaos, Mousas, Christos, Koilias, Alexandros, Anastasiou, Dimitris, Rekabdar, Banafsheh, and Anagnostopoulos, Christos-Nikolaos

Abstract

The present study investigates users' movement behavior in a virtual environment when they attempted to avoid a virtual character. At each iteration of the experiment, four conditions (Self-Avatar LookAt, No Self-Avatar LookAt, Self-Avatar No LookAt, and No Self-Avatar No LookAt) were applied to examine users' movement behavior based on kinematic measures. During the experiment, 52 participants were asked to walk from a starting position to a target position. A virtual character was placed at the midpoint. Participants were asked to wear a head-mounted display throughout the task, and their locomotion was captured using a motion capture suit. We analyzed the captured trajectories of the participants' routes on four kinematic measures to explore whether the four experimental conditions influenced the paths they took. The results indicated that the Self-Avatar LookAt condition affected the path the participants chose more significantly than the other three conditions in terms of length, duration, and deviation, but not in terms of speed. Overall, the length and duration of the task, as well as the deviation of the trajectory from the straight line, were greater when a self-avatar represented participants. An additional effect on kinematic measures was found in the LookAt (Gaze) conditions. Implications for future research are discussed.

Published

2019

5. A Game-Theoretic Model for Analysis and Design of Self-Organization Mechanisms in IoT

Author

Behzadan, Vahid, Rekabdar, Banafsheh, Behzadan, Vahid, and Rekabdar, Banafsheh

Abstract

We propose a framework based on Network Formation Game for self-organization in the Internet of Things (IoT), in which heterogeneous and multi-interface nodes are modeled as self-interested agents who individually decide on establishment and severance of links to other agents. Through analysis of the static game, we formally confirm the emergence of realistic topologies from our model, and analytically establish the criteria that lead to stable multi-hop network structures., Comment: preprint of submission to GameNets 2017

Published

2017