An improved neurogenetic model for recognition of 3D kinetic data of human extracted from the Vicon Robot system

IF 1.2 Q3 MULTIDISCIPLINARY SCIENCES Baghdad Science Journal Pub Date : 2023-12-05 DOI:10.21123/bsj.2023.9087
I. Stepanyan, Safa A. Hameed
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Abstract

These days, it is crucial to discern between different types of human behavior, and artificial intelligence techniques play a big part in that.  The characteristics of the feedforward artificial neural network (FANN) algorithm and the genetic algorithm have been combined to create an important working mechanism that aids in this field. The proposed system can be used for essential tasks in life, such as analysis, automation, control, recognition, and other tasks. Crossover and mutation are the two primary mechanisms used by the genetic algorithm in the proposed system to replace the back propagation process in ANN. While the feedforward artificial neural network technique is focused on input processing, this should be based on the process of breaking the feedforward artificial neural network algorithm. Additionally, the result is computed from each ANN during the breaking up process, which is based on the breaking up of the artificial neural network algorithm into multiple ANNs based on the number of ANN layers, and therefore, each layer in the original artificial neural network algorithm is assessed. The best layers are chosen for the crossover phase after the breakage process, while the other layers go through the mutation process. The output of this generation is then determined by combining the artificial neural networks into a single ANN; the outcome is then checked to see if the process needs to create a new generation. The system performed well and produced accurate findings when it was used with data taken from the Vicon Robot system, which was primarily designed to record human behaviors based on three coordinates and classify them as either normal or aggressive.
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用于识别从 Vicon 机器人系统提取的人体三维运动数据的改进型神经遗传模型
如今,区分不同类型的人类行为至关重要,人工智能技术在其中发挥了重要作用。前馈人工神经网络(FANN)算法和遗传算法的特点相结合,形成了一种重要的工作机制,有助于该领域的研究。该系统可用于分析、自动化、控制、识别等生活中必不可少的任务。交叉和突变是遗传算法在该系统中用来取代人工神经网络中反向传播过程的两种主要机制。而前馈人工神经网络技术关注的是输入处理,这应该建立在对前馈人工神经网络算法进行突破的过程之上。此外,在分解过程中对每个神经网络计算结果,这是基于将人工神经网络算法根据神经网络层数分解为多个神经网络,因此,对原始人工神经网络算法中的每一层进行评估。在断裂过程后,选择最佳层进行交叉阶段,而其他层则进行突变过程。然后通过将人工神经网络组合成单个人工神经网络来确定这一代的输出;然后检查结果,看看流程是否需要创建新一代。当与Vicon机器人系统的数据一起使用时,该系统表现良好,并产生了准确的结果。Vicon机器人系统的主要目的是根据三个坐标记录人类行为,并将其分为正常行为和攻击性行为。
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来源期刊
Baghdad Science Journal
Baghdad Science Journal MULTIDISCIPLINARY SCIENCES-
CiteScore
2.00
自引率
50.00%
发文量
102
审稿时长
24 weeks
期刊介绍: The journal publishes academic and applied papers dealing with recent topics and scientific concepts. Papers considered for publication in biology, chemistry, computer sciences, physics, and mathematics. Accepted papers will be freely downloaded by professors, researchers, instructors, students, and interested workers. ( Open Access) Published Papers are registered and indexed in the universal libraries.
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