{"title":"Optimisation of electrical Impedance tomography image reconstruction error using heuristic algorithms","authors":"Talha A. Khan, Sai Ho Ling, Arslan A. Rizvi","doi":"10.1007/s10462-023-10527-y","DOIUrl":null,"url":null,"abstract":"<div><p>Preventing living tissues’ direct exposure to ionising radiation has resulted in tremendous growth in medical imaging and e-health, enhancing intensive care of perilous patients and helping to improve quality of life. Moreover, the practice of image-reconstruction instruments that utilise ionising radiation significantly impacts the patient’s health. Prolonged or frequent exposure to ionising radiation is linked to several illnesses like cancer. These factors urged the advancement of non-invasive approaches, for instance, Electrical Impedance Tomography (EIT), a portable, non-invasive, low-cost, and safe imaging method. EIT image reconstruction still demands more exploitation, as it is an inverse and ill-conditioned problem. Numerous numerical techniques are used to answer this problem without producing anatomically unpredictable outcomes. Evolutionary Computational techniques can substitute conventional methods that usually create low-resolution blurry images. EIT reconstruction techniques optimise the relative error of reconstruction using population-based optimisation methods presented in this work. Three advanced optimisation methods have been developed to facilitate the iterative procedure for avoiding anatomically erratic solutions. Three different optimising techniques, namely, (a) Advanced Particle Swarm Optimisation Algorithm, (b) Advanced Gravitational Search Algorithm, and (c) Hybrid Gravitational Search Particle Swarm Optimization Algorithm (HGSPSO), are used. By utilising the advantages of these proposed techniques, the convergence and solution stability performance is improved. EIT images were obtained from the EIDORS library database for two case studies. The image reconstruction was optimised using the three proposed algorithms. EIDORS library was used for generating and solving forward and reverse problems. Two case studies were undertaken, i.e. circular tank simulation and gastric emptying. Thus, the results are analysed and presented as a real-world application of population-based optimisation methods. Results obtained from the proposed methods are quantitatively assessed with ground truth images using the relative mean squared error, confirming that a low error value is reached in the results. The HGSPSO algorithm performs better than the other proposed methods regarding solution quality and stability.</p></div>","PeriodicalId":8449,"journal":{"name":"Artificial Intelligence Review","volume":"56 12","pages":"15079 - 15099"},"PeriodicalIF":10.7000,"publicationDate":"2023-06-14","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Artificial Intelligence Review","FirstCategoryId":"94","ListUrlMain":"https://link.springer.com/article/10.1007/s10462-023-10527-y","RegionNum":2,"RegionCategory":"计算机科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE","Score":null,"Total":0}
引用次数: 0
Abstract
Preventing living tissues’ direct exposure to ionising radiation has resulted in tremendous growth in medical imaging and e-health, enhancing intensive care of perilous patients and helping to improve quality of life. Moreover, the practice of image-reconstruction instruments that utilise ionising radiation significantly impacts the patient’s health. Prolonged or frequent exposure to ionising radiation is linked to several illnesses like cancer. These factors urged the advancement of non-invasive approaches, for instance, Electrical Impedance Tomography (EIT), a portable, non-invasive, low-cost, and safe imaging method. EIT image reconstruction still demands more exploitation, as it is an inverse and ill-conditioned problem. Numerous numerical techniques are used to answer this problem without producing anatomically unpredictable outcomes. Evolutionary Computational techniques can substitute conventional methods that usually create low-resolution blurry images. EIT reconstruction techniques optimise the relative error of reconstruction using population-based optimisation methods presented in this work. Three advanced optimisation methods have been developed to facilitate the iterative procedure for avoiding anatomically erratic solutions. Three different optimising techniques, namely, (a) Advanced Particle Swarm Optimisation Algorithm, (b) Advanced Gravitational Search Algorithm, and (c) Hybrid Gravitational Search Particle Swarm Optimization Algorithm (HGSPSO), are used. By utilising the advantages of these proposed techniques, the convergence and solution stability performance is improved. EIT images were obtained from the EIDORS library database for two case studies. The image reconstruction was optimised using the three proposed algorithms. EIDORS library was used for generating and solving forward and reverse problems. Two case studies were undertaken, i.e. circular tank simulation and gastric emptying. Thus, the results are analysed and presented as a real-world application of population-based optimisation methods. Results obtained from the proposed methods are quantitatively assessed with ground truth images using the relative mean squared error, confirming that a low error value is reached in the results. The HGSPSO algorithm performs better than the other proposed methods regarding solution quality and stability.
防止活体组织直接暴露于电离辐射已导致医学成像和电子保健的巨大增长,加强了对危险患者的重症监护,并有助于提高生活质量。此外,利用电离辐射的图像重建仪器的做法严重影响患者的健康。长期或频繁暴露在电离辐射下与癌症等几种疾病有关。这些因素促使非侵入性方法的发展,例如,电阻抗断层扫描(EIT),一种便携式,非侵入性,低成本和安全的成像方法。由于EIT图像重建是一个逆问题和病态问题,因此需要进一步开发。许多数值技术被用来回答这个问题,而不会产生解剖学上不可预测的结果。进化计算技术可以替代通常会产生低分辨率模糊图像的传统方法。EIT重建技术利用基于人口的优化方法优化了重建的相对误差。已经开发了三种先进的优化方法,以促进迭代过程,以避免解剖不稳定的解决方案。使用了三种不同的优化技术,即(a)先进粒子群优化算法,(b)先进引力搜索算法,和(c)混合引力搜索粒子群优化算法(HGSPSO)。利用这些技术的优点,提高了算法的收敛性和稳定性。EIT图像从EIDORS库数据库中获得,用于两个案例研究。利用所提出的三种算法对图像重建进行了优化。使用EIDORS库生成和求解正向和反向问题。进行了两个案例研究,即循环槽模拟和胃排空。因此,结果被分析和呈现为基于人口的优化方法的现实世界的应用。利用相对均方误差(relative mean squared error)对ground truth图像进行了定量评估,确认了结果达到了较低的误差值。HGSPSO算法在求解质量和稳定性方面优于其他方法。
期刊介绍:
Artificial Intelligence Review, a fully open access journal, publishes cutting-edge research in artificial intelligence and cognitive science. It features critical evaluations of applications, techniques, and algorithms, providing a platform for both researchers and application developers. The journal includes refereed survey and tutorial articles, along with reviews and commentary on significant developments in the field.