Fast Foothold Planning for Quadruped Robot Locomotion Using Topological Perception

Azhar Aulia Saputra; Masaya Shoji; Fernando Ardilla; Naoyuki Kubota

doi:10.1109/IES63037.2024.10665880

Fast Foothold Planning for Quadruped Robot Locomotion Using Topological Perception

Azhar Aulia Saputra^*
, Masaya Shoji
, Fernando Ardilla
, Naoyuki Kubota

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Recent advancements in legged robot locomotion systems have led to significant improvements in their agility and overall performance. However, for these systems to effectively handle sudden obstacles, especially in foothold areas, real-time integration of external information is crucial. In this paper, we introduce a rapid integration approach between perception and action in legged robot locomotion to address such unexpected external obstacles. We utilize depth sensors to capture external data in the form of pointclouds. We have developed a fast surface perception model based on topological information, employing dynamic sparsity through the growing neural gas algorithm. This model addresses several key challenges in 3D point cloud extraction: 1) Extracting object features from a smaller portion of data. 2) Controlling granularity in unsupervised learning using a topological structure. 3) Controlling granularity with only 3D positional point cloud information. To evaluate the effectiveness of our proposed method, we conducted a series of progressive experiments. Initially, we compared the performance of our topological perception model with similar approaches.

Original language	English
Title of host publication	2024 International Electronics Symposium
Subtitle of host publication	Shaping the Future: Society 5.0 and Beyond, IES 2024 - Proceeding
Editors	Andhik Ampuh Yunanto, Afifah Dwi Ramadhani, Yanuar Risah Prayogi, Putu Agus Mahadi Putra, Weny Mistarika Rahmawati, Muhammad Rizani Rusli, Fitrah Maharani Humaira, Faridatun Nadziroh, Nihayatus Sa'adah, Nailul Muna, Aris Bahari Rizki
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	257-263
Number of pages	7
ISBN (Electronic)	9798350391992
DOIs	https://doi.org/10.1109/IES63037.2024.10665880
State	Published - 2024
Externally published	Yes
Event	26th International Electronics Symposium, IES 2024 - Denpasar, Indonesia Duration: 6 Aug 2024 → 8 Aug 2024

Publication series

Name	2024 International Electronics Symposium: Shaping the Future: Society 5.0 and Beyond, IES 2024 - Proceeding

Conference

Conference	26th International Electronics Symposium, IES 2024
Country/Territory	Indonesia
City	Denpasar
Period	6/08/24 → 8/08/24

Bibliographical note

Publisher Copyright:
© 2024 IEEE.

Keywords

Growing Neural Gas
Robot Locomotion
Topological Perception

ASJC Scopus subject areas

Computer Networks and Communications
Signal Processing
Energy Engineering and Power Technology
Electrical and Electronic Engineering
Safety, Risk, Reliability and Quality
Control and Optimization
Instrumentation

Access to Document

10.1109/IES63037.2024.10665880

Cite this

Saputra, A. A., Shoji, M., Ardilla, F., & Kubota, N. (2024). Fast Foothold Planning for Quadruped Robot Locomotion Using Topological Perception. In A. A. Yunanto, A. D. Ramadhani, Y. R. Prayogi, P. A. M. Putra, W. M. Rahmawati, M. R. Rusli, F. M. Humaira, F. Nadziroh, N. Sa'adah, N. Muna, & A. B. Rizki (Eds.), 2024 International Electronics Symposium: Shaping the Future: Society 5.0 and Beyond, IES 2024 - Proceeding (pp. 257-263). (2024 International Electronics Symposium: Shaping the Future: Society 5.0 and Beyond, IES 2024 - Proceeding). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/IES63037.2024.10665880

Saputra, Azhar Aulia ; Shoji, Masaya ; Ardilla, Fernando et al. / Fast Foothold Planning for Quadruped Robot Locomotion Using Topological Perception. 2024 International Electronics Symposium: Shaping the Future: Society 5.0 and Beyond, IES 2024 - Proceeding. editor / Andhik Ampuh Yunanto ; Afifah Dwi Ramadhani ; Yanuar Risah Prayogi ; Putu Agus Mahadi Putra ; Weny Mistarika Rahmawati ; Muhammad Rizani Rusli ; Fitrah Maharani Humaira ; Faridatun Nadziroh ; Nihayatus Sa'adah ; Nailul Muna ; Aris Bahari Rizki. Institute of Electrical and Electronics Engineers Inc., 2024. pp. 257-263 (2024 International Electronics Symposium: Shaping the Future: Society 5.0 and Beyond, IES 2024 - Proceeding).

@inproceedings{a9bd43bbf1a34948aeaef372ad627de7,

title = "Fast Foothold Planning for Quadruped Robot Locomotion Using Topological Perception",

abstract = "Recent advancements in legged robot locomotion systems have led to significant improvements in their agility and overall performance. However, for these systems to effectively handle sudden obstacles, especially in foothold areas, real-time integration of external information is crucial. In this paper, we introduce a rapid integration approach between perception and action in legged robot locomotion to address such unexpected external obstacles. We utilize depth sensors to capture external data in the form of pointclouds. We have developed a fast surface perception model based on topological information, employing dynamic sparsity through the growing neural gas algorithm. This model addresses several key challenges in 3D point cloud extraction: 1) Extracting object features from a smaller portion of data. 2) Controlling granularity in unsupervised learning using a topological structure. 3) Controlling granularity with only 3D positional point cloud information. To evaluate the effectiveness of our proposed method, we conducted a series of progressive experiments. Initially, we compared the performance of our topological perception model with similar approaches.",

keywords = "Growing Neural Gas, Robot Locomotion, Topological Perception",

author = "Saputra, \{Azhar Aulia\} and Masaya Shoji and Fernando Ardilla and Naoyuki Kubota",

note = "Publisher Copyright: {\textcopyright} 2024 IEEE.; 26th International Electronics Symposium, IES 2024 ; Conference date: 06-08-2024 Through 08-08-2024",

year = "2024",

doi = "10.1109/IES63037.2024.10665880",

language = "English",

series = "2024 International Electronics Symposium: Shaping the Future: Society 5.0 and Beyond, IES 2024 - Proceeding",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

pages = "257--263",

editor = "Yunanto, \{Andhik Ampuh\} and Ramadhani, \{Afifah Dwi\} and Prayogi, \{Yanuar Risah\} and Putra, \{Putu Agus Mahadi\} and Rahmawati, \{Weny Mistarika\} and Rusli, \{Muhammad Rizani\} and Humaira, \{Fitrah Maharani\} and Faridatun Nadziroh and Nihayatus Sa'adah and Nailul Muna and Rizki, \{Aris Bahari\}",

booktitle = "2024 International Electronics Symposium",

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Saputra, AA, Shoji, M, Ardilla, F & Kubota, N 2024, Fast Foothold Planning for Quadruped Robot Locomotion Using Topological Perception. in AA Yunanto, AD Ramadhani, YR Prayogi, PAM Putra, WM Rahmawati, MR Rusli, FM Humaira, F Nadziroh, N Sa'adah, N Muna & AB Rizki (eds), 2024 International Electronics Symposium: Shaping the Future: Society 5.0 and Beyond, IES 2024 - Proceeding. 2024 International Electronics Symposium: Shaping the Future: Society 5.0 and Beyond, IES 2024 - Proceeding, Institute of Electrical and Electronics Engineers Inc., pp. 257-263, 26th International Electronics Symposium, IES 2024, Denpasar, Indonesia, 6/08/24. https://doi.org/10.1109/IES63037.2024.10665880

Fast Foothold Planning for Quadruped Robot Locomotion Using Topological Perception. / Saputra, Azhar Aulia; Shoji, Masaya; Ardilla, Fernando et al.
2024 International Electronics Symposium: Shaping the Future: Society 5.0 and Beyond, IES 2024 - Proceeding. ed. / Andhik Ampuh Yunanto; Afifah Dwi Ramadhani; Yanuar Risah Prayogi; Putu Agus Mahadi Putra; Weny Mistarika Rahmawati; Muhammad Rizani Rusli; Fitrah Maharani Humaira; Faridatun Nadziroh; Nihayatus Sa'adah; Nailul Muna; Aris Bahari Rizki. Institute of Electrical and Electronics Engineers Inc., 2024. p. 257-263 (2024 International Electronics Symposium: Shaping the Future: Society 5.0 and Beyond, IES 2024 - Proceeding).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Fast Foothold Planning for Quadruped Robot Locomotion Using Topological Perception

AU - Saputra, Azhar Aulia

AU - Shoji, Masaya

AU - Ardilla, Fernando

AU - Kubota, Naoyuki

PY - 2024

Y1 - 2024

N2 - Recent advancements in legged robot locomotion systems have led to significant improvements in their agility and overall performance. However, for these systems to effectively handle sudden obstacles, especially in foothold areas, real-time integration of external information is crucial. In this paper, we introduce a rapid integration approach between perception and action in legged robot locomotion to address such unexpected external obstacles. We utilize depth sensors to capture external data in the form of pointclouds. We have developed a fast surface perception model based on topological information, employing dynamic sparsity through the growing neural gas algorithm. This model addresses several key challenges in 3D point cloud extraction: 1) Extracting object features from a smaller portion of data. 2) Controlling granularity in unsupervised learning using a topological structure. 3) Controlling granularity with only 3D positional point cloud information. To evaluate the effectiveness of our proposed method, we conducted a series of progressive experiments. Initially, we compared the performance of our topological perception model with similar approaches.

AB - Recent advancements in legged robot locomotion systems have led to significant improvements in their agility and overall performance. However, for these systems to effectively handle sudden obstacles, especially in foothold areas, real-time integration of external information is crucial. In this paper, we introduce a rapid integration approach between perception and action in legged robot locomotion to address such unexpected external obstacles. We utilize depth sensors to capture external data in the form of pointclouds. We have developed a fast surface perception model based on topological information, employing dynamic sparsity through the growing neural gas algorithm. This model addresses several key challenges in 3D point cloud extraction: 1) Extracting object features from a smaller portion of data. 2) Controlling granularity in unsupervised learning using a topological structure. 3) Controlling granularity with only 3D positional point cloud information. To evaluate the effectiveness of our proposed method, we conducted a series of progressive experiments. Initially, we compared the performance of our topological perception model with similar approaches.

KW - Growing Neural Gas

KW - Robot Locomotion

KW - Topological Perception

UR - https://www.scopus.com/pages/publications/85204976350

U2 - 10.1109/IES63037.2024.10665880

DO - 10.1109/IES63037.2024.10665880

M3 - Conference contribution

AN - SCOPUS:85204976350

T3 - 2024 International Electronics Symposium: Shaping the Future: Society 5.0 and Beyond, IES 2024 - Proceeding

SP - 257

EP - 263

BT - 2024 International Electronics Symposium

A2 - Yunanto, Andhik Ampuh

A2 - Ramadhani, Afifah Dwi

A2 - Prayogi, Yanuar Risah

A2 - Putra, Putu Agus Mahadi

A2 - Rahmawati, Weny Mistarika

A2 - Rusli, Muhammad Rizani

A2 - Humaira, Fitrah Maharani

A2 - Nadziroh, Faridatun

A2 - Sa'adah, Nihayatus

A2 - Muna, Nailul

A2 - Rizki, Aris Bahari

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 26th International Electronics Symposium, IES 2024

Y2 - 6 August 2024 through 8 August 2024

ER -

Saputra AA, Shoji M, Ardilla F, Kubota N. Fast Foothold Planning for Quadruped Robot Locomotion Using Topological Perception. In Yunanto AA, Ramadhani AD, Prayogi YR, Putra PAM, Rahmawati WM, Rusli MR, Humaira FM, Nadziroh F, Sa'adah N, Muna N, Rizki AB, editors, 2024 International Electronics Symposium: Shaping the Future: Society 5.0 and Beyond, IES 2024 - Proceeding. Institute of Electrical and Electronics Engineers Inc. 2024. p. 257-263. (2024 International Electronics Symposium: Shaping the Future: Society 5.0 and Beyond, IES 2024 - Proceeding). doi: 10.1109/IES63037.2024.10665880

Fast Foothold Planning for Quadruped Robot Locomotion Using Topological Perception

Abstract

Publication series

Conference

Bibliographical note

Keywords

ASJC Scopus subject areas

Access to Document

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Cite this