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引用次数: 0
摘要
如果肿瘤生长在大脑或中央脊髓血管(肿瘤)附近,则称为“颅内硬瘤”。在某些情况下,负责的细胞可能是位于大脑结构深处的神经元。本文讨论了一种阻止脑肿瘤发展的策略。一个精确的脑肿瘤分析模型是这一策略的基础。它基于杀伤链内点(kill chain interior point, KCIP)算法,该算法是杀伤链和内点算法相结合的结果,也是一种精确、准确的脑肿瘤分析模型。无法获得肿瘤细胞活动的清晰图像是这一努力的最大挑战。群体机器人是人工智能的一个子集,本文在此基础上提出了群体机器人运动的新概念,该概念可用于各种情况。接下来的KCIP算法在分析模型中用于限制某些细胞类型的发展。根据研究结果,似乎不同的KCIP速度比对预防脑肿瘤的发展有益。希望本研究能够帮助研究人员更好地了解脑肿瘤的行为,从而开发出一种有效消除肿瘤细胞的新药。
A Novel Analytical Model of Brain Tumor Based on Swarm Robotics
A tumor is referred to as “intracranial hard neoplasm” if it grows near the brain or central spinal vessel (neoplasm). In certain cases, it is possible that the responsible cells are neurons situated deep inside the brain’s structure. This article discusses a strategy for halting the progression of brain tumor. A precise and accurate analytical model of brain tumors is the foundation of this strategy. It is based on an algorithm known as kill chain interior point (KCIP), which is the result of a merger of kill chain and interior point algorithms, as well as a precise and accurate analytical model of brain tumors. The inability to obtain a clear picture of tumor cell activity is the biggest challenge in this endeavor. Based on the motion of swarm robots, which are considered a subset of artificial intelligence, this article proposes a new notion of this kind of behavior, which may be used in various situations. The KCIP algorithm that follows is used in the analytical model to limit the development of certain cell types. According to the findings, it seems that different KCIP speed ratios are beneficial in preventing the development of brain tumors. It is hoped that this study will help researchers better understand the behavior of brain tumors, so as to develop a new drug that is effective in eliminating the tumor cells.
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