Page 26 of 26                          Blewitt et al. Soft Sci 2024;4:13  https://dx.doi.org/10.20517/ss.2023.49

               73.      Kandhari A, Horchler AD, Zucker GS, Daltorio KA, Chiel HJ, Quinn RD. Sensing contact constraints in a worm-like robot by
                   detecting load anomalies. In: Lepora N, Mura A, Mangan M, Verschure P, Desmulliez M, Prescott T, editors. Biomimetic and
                   biohybrid systems. Springer, Cham; 2016. pp. 97-106.  DOI
               74.      Kandhari A, Stover MC, Jayachandran PR, et al. Distributed sensing for soft worm robot reduces slip for locomotion in confined
                   environments. In: Vouloutsi V, editor. Biomimetic and biohybrid systems. Springer, Cham; 2018. pp. 236-48.  DOI
               75.      Calderón AA, Ugalde JC, Chang L, Cristóbal Zagal J, Pérez-Arancibia NO. An earthworm-inspired soft robot with perceptive artificial
                   skin. Bioinspir Biomim 2019;14:056012.  DOI
               76.      Aitken JM, Evans MH, Worley R, et al. Simultaneous localization and mapping for inspection robots in water and sewer pipe
                   networks: a review. IEEE Access 2021;9:140173-98. DOI
               77.      Goldoni R, Ozkan-Aydin Y, Kim YS, et al. Stretchable nanocomposite sensors, nanomembrane interconnectors, and wireless
                   electronics toward feedback-loop control of a soft earthworm robot. ACS Appl Mater Interfaces 2020;12:43388-97.  DOI
               78.      Negm A, Ma X, Aggidis G. Review of leakage detection in water distribution networks. IOP Conf Ser Earth Environ Sci
                   2023;1136:012052.  DOI
               79.      Ishikawa R, Tomita T, Yamada Y, Nakamura T. Investigation of odometry method of pipe line shape by peristaltic crawling robot
                   combined with inner sensor. In: 2017 IEEE International Conference on Advanced Intelligent Mechatronics (AIM); 2017 Jul 03-07;
                   Munich, Germany. IEEE; 2017. pp. 1279-84.  DOI
               80.      Se S, Lowe DG, Little JJ. Vision-based global localization and mapping for mobile robots. IEEE T Robot 2005;21:364-75.  DOI
               81.      Lu D, Zhang Y, Gong Z, Wu T. A SLAM method based on multi-robot cooperation for pipeline environments underground.
                   Sustainability 2022;14:12995.  DOI
               82.      Zhang R, Evans MH, Worley R, Anderson SR, Mihaylova L. Improving SLAM in pipe networks by leveraging cylindrical regularity.
                   In: Towards Autonomous Robotic Systems. Lecture Notes in Computer Science. Springer, Cham; 2021. pp. 56-65.  DOI
               83.      Lim H, Choi JY, Kwon YS, Jung EJ, Yi BJ. SLAM in indoor pipelines with 15mm diameter. In: 2008 IEEE International Conference
                   on Robotics and Automation; 2008 May 19-23; Pasadena, CA. IEEE; 2008. pp. 4005-11.  DOI