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{{Multiple issues|
'''Prof. Dr.Eng Harus Laksana Guntur, ST, M.Eng''' (lahir Pasuruan, 11 Mei 1975) adalah [[Profesor|guru besar]] Fakultas Teknologi Industri dan Rekayasa Sistem [[Institut Teknologi Sepuluh Nopember|Institut Teknologi Sepuluh Nopember (ITS)]]. Beliau memiliki bidang keahlian [[Teknik Mesin ITS|Teknik Mesin]], khususnya Rekayasa Peredam Getaran.
{{Like resume|date=November 2023}}
{{Biografi tambah referensi|date=November 2023}}
{{Biografi tanpa referensi|date=November 2023}}
}}
[[Berkas:Prof Harus Laksana Guntur.jpg|kiri|jmpl|Prof. Dr.Eng Harus Laksana Guntur, ST, M.Eng]]
'''Prof. Dr.Eng Harus Laksana Guntur, ST, M.Eng''' (lahir Pasuruan, 11 Mei 1975) adalah [[Profesor|guru besar]] Fakultas Teknologi Industri dan Rekayasa Sistem [[Institut Teknologi Sepuluh Nopember|Institut Teknologi Sepuluh Nopember (ITS)]]. Beliau memiliki bidang keahlian [[Teknik Mesin ITS|Teknik Mesin]], khususnya Rekayasa Peredam Getaran.


== Pendidikan ==
== Pendidikan ==
Harus menyelesaikan pendidikannya di tingkat sarjana di jurusan Teknik Mesin Institut Teknologi Sepuluh Nopember (lulus 1998). Kemudian melanjutkan studi [[Pendidikan pascasarjana|pascasarjana]] Master of Engineering, Department of Mechano-Micro Engineering, [[Institut Teknologi Tokyo|Tokyo Institute of Technology]], Jepang (Lulus 2005). Setelah itu langsung menyelesaikan program Doctor of Engineering, Department of Mechano-Micro Engineering, Tokyo Institute of Technology, Jepang (Lulus 2007).
Harus menyelesaikan pendidikan tingkat sarjana di jurusan Teknik Mesin Institut Teknologi Sepuluh Nopember (lulus 1998). Kemudian melanjutkan studi [[Pendidikan pascasarjana|pascasarjana]] Master of Engineering, Department of Mechano-Micro Engineering, [[Institut Teknologi Tokyo|Tokyo Institute of Technology]], Jepang (Lulus 2005). Setelah itu langsung menyelesaikan program Doctor of Engineering, Department of Mechano-Micro Engineering, Tokyo Institute of Technology, Jepang (Lulus 2007).


== Karir ==
== Karir ==
Harus mengawali karirnya di kampus sebagai Kepala Laboratorium Sistem Dinamis dan Vibrasi, Jurusan Teknik Mesin ITS (2012-2015) sekaligus Sekretaris Program Studi Pascasarjana (S2/S3), Jurusan Teknik Mesin, ITS (2012-2015). Setelahnya ia menjabat sebagai Sekretaris Lembaga Penelitian dan Pengabdian Masyarakat (LPPM) ITS, (2015-2019), kemudian menjadi Kepala Lembaga Penelitian dan Pengabdian Masyarakat (LPPM) ITS, (Juli –Desember 2019).
Harus mengawali karirnya di kampus sebagai Kepala Laboratorium Sistem Dinamis dan Vibrasi, Jurusan Teknik Mesin ITS (2012-2015) sekaligus Sekretaris Program Studi Pascasarjana (S2/S3), Jurusan Teknik Mesin, ITS (2012-2015).


Setelah itu ia menjabat sebagai Sekretaris Lembaga Penelitian dan Pengabdian Masyarakat (LPPM) ITS, (2015-2019), kemudian menjadi Kepala Lembaga Penelitian dan Pengabdian Masyarakat (LPPM) ITS, (Juli –Desember 2019).
Saat ini, Harus menjabat sebagai Kepala Program Studi Pascasarjana (S2/S3), Jurusan Teknik Mesin, ITS sejak tahun 2020.

Saat ini, Harus menjabat sebagai Kepala Program Studi Pascasarjana (S2/S3), Jurusan Teknik Mesin, ITS sejak tahun 2020 sampai sekarang.<ref>{{Cite web|last=Wulandari|first=Trisna|title=ITS Umumkan 20 Bakal Calon Rektor Periode 2024-2029|url=https://www.detik.com/edu/perguruan-tinggi/d-7000499/its-umumkan-20-bakal-calon-rektor-periode-2024-2029|website=detikedu|language=id-ID|access-date=2023-11-08}}</ref>
[[Berkas:Harus Laksana Guntur.jpg|jmpl|Kegiatan di Laboratorium RVSO]]


== Prestasi ==
== Prestasi ==
Baris 16: Baris 25:
3. Ketua LSM- Masyarakat Anti Korupsi (MASA), Jepang (2005 - 2007)
3. Ketua LSM- Masyarakat Anti Korupsi (MASA), Jepang (2005 - 2007)


4. Ketua Persatuan Pelajar Indonesia, Tokyo Institute of Technology, Jepang (2004 -
4. Ketua Persatuan Pelajar Indonesia, Tokyo Institute of Technology, Jepang (2004 -2005)


5. Ketua Bidang Pendidikan, Persatuan Pelajar Indonesia [PPI] Pusat, Jepang (2005 - 2007)
2005)

5. Ketua Bidang Pendidikan, Persatuan Pelajar Indonesia [PPI] Pusat, Jepang (2005 -

2007)


6. Anggota [https://www.asme.org/ American Society of Mechanical Engineer] <ref>{{Cite web|title=ASME Membership - ASME|url=https://www.asme.org/membership|website=www.asme.org|language=en|access-date=2023-11-08}}</ref> [ASME] (2020 - Sekarang)
6. Anggota [https://www.asme.org/ American Society of Mechanical Engineer] <ref>{{Cite web|title=ASME Membership - ASME|url=https://www.asme.org/membership|website=www.asme.org|language=en|access-date=2023-11-08}}</ref> [ASME] (2020 - Sekarang)
Baris 32: Baris 37:
9. Wakil Sekretaris Asosiasi Profesor Indonesia [API] (2023 - Sekarang)
9. Wakil Sekretaris Asosiasi Profesor Indonesia [API] (2023 - Sekarang)


10. Ketua Bidang Teknologi, Dewan Pimpinan Pusat, Ikatan Pesantren Indonesia [IPI]
10. Ketua Bidang Teknologi, Dewan Pimpinan Pusat, Ikatan Pesantren Indonesia [IPI] (2023 - Sekarang)

(2023 - Sekarang)


== Karya Ilmiah ==
== Karya Ilmiah ==


* H.L.Guntur, W.Hendrowati. Scryptian NH.Zuhri (2020). '''Designing hydro magneto electric''' '''regenerative shock absorber for vehicle suspension considering''' '''conventional viscous shock absorber performance.''' ''Journal of Mechanical Science'' ''and Technology, Vol.34 (1), 55 – 67. 2020'', KSME-Springer, 2020.<ref>{{Cite journal|last=Guntur|first=Harus Laksana|last2=Hendrowati|first2=Wiwiek|last3=Syuhri|first3=Skriptyan N. H.|date=2020-01|title=Designing hydro-magneto-electric regenerative shock absorber for vehicle suspension considering conventional-viscous shock absorber performance|url=http://link.springer.com/10.1007/s12206-019-1205-1|journal=Journal of Mechanical Science and Technology|language=en|volume=34|issue=1|pages=55–67|doi=10.1007/s12206-019-1205-1|issn=1738-494X}}</ref>
* H.L.Guntur, W.Hendrowati. Scryptian NH.Zuhri (2020). '''Designing hydro magneto electric'''


* H.L.Guntur, Listy Fazria S (2016). '''The influence of asymmetry ratio and average of the''' '''damping force on the Performance and ride comfort of a vehicle.''' ''International Journal Vehicle'' ''Systems Modelling and Testing, Vol. 11, No. 2, 2016.''<ref>{{Cite journal|last=Guntur|first=Harus Laksana|last2=Setiawan|first2=Listy Fazria|date=2016|title=The influence of asymmetry ratio and average of the damping force on the performance and ride comfort of a vehicle|url=http://www.inderscience.com/link.php?id=77924|journal=International Journal of Vehicle Systems Modelling and Testing|language=en|volume=11|issue=2|pages=97|doi=10.1504/IJVSMT.2016.077924|issn=1745-6436}}</ref>
'''regenerative shock absorber for vehicle suspension considering'''


* Albana, M.H., Guntur, H.L., Putra, A.B.K. (2023). '''The Effect of Rotational Speed on the''' '''Thermal Characteristics of a Wheel Hub Motor on an Electric Scooter.''' ''International Seminar on Intelligent Technology and Its Applications: Leveraging'' ''Intelligent Systems to Achieve Sustainable Development Goals'', ISITIA- Proceeding, pp. 749–754. 2023.
'''conventional viscous shock absorber performance.''' ''Journal of Mechanical Science''


* Guntur, H.L., Nugraha, D.K. (2023). '''Ball Screw Regenerative Shock Absorber Design and''' '''Road Test for Small Class Multi Purposes Vehicle Suspension'''''.'' ''Lecture Notes in Recent Advances in'' ''Mechanical Engineering'', pp. 79–89.2023.<ref>{{Cite book|last=Guntur|first=Harus Laksana|last2=Nugraha|first2=Dhion Khairul|date=2022-08-19|url=http://dx.doi.org/10.1007/978-981-19-0867-5_10|title=Ball Screw Regenerative Shock Absorber Design and Road Test for Small Class Multi Purposes Vehicle Suspension|location=Singapore|publisher=Springer Nature Singapore|isbn=978-981-19-0866-8|pages=79–89}}</ref>
''and Technology, Vol.34 (1), 55 – 67. 2020'', KSME-Springer, 2020.<ref>{{Cite journal|last=Guntur|first=Harus Laksana|last2=Hendrowati|first2=Wiwiek|last3=Syuhri|first3=Skriptyan N. H.|date=2020-01|title=Designing hydro-magneto-electric regenerative shock absorber for vehicle suspension considering conventional-viscous shock absorber performance|url=http://link.springer.com/10.1007/s12206-019-1205-1|journal=Journal of Mechanical Science and Technology|language=en|volume=34|issue=1|pages=55–67|doi=10.1007/s12206-019-1205-1|issn=1738-494X}}</ref>


* Albana, M.H., Guntur, H.L., Putra, A.B.K. (2023). '''The effect of grooves on the in-wheel''' '''motor cover of an electric scooter to increase the heat transfer process'''<ref>{{Cite journal|last=Albana|first=Muhammad Hasan|last2=Guntur|first2=Harus Laksana|last3=Putra|first3=Ary Bachtiar Khrisna|date=2023-02-16|title=The effect of grooves on the in-wheel motor cover of an electric scooter to increase the heat transfer process|url=http://dx.doi.org/10.1109/iccosite57641.2023.10127695|journal=2023 International Conference on Computer Science, Information Technology and Engineering (ICCoSITE)|publisher=IEEE|doi=10.1109/iccosite57641.2023.10127695}}</ref>, ICCoSITE 2023 - ''International Conference on Computer Science, Information Technology and'' ''Engineering: Digital Transformation Strategy in Facing the VUCA and TUNA Era'', pp. 84–89.2023.
* H.L.Guntur, Listy Fazria S (2016). '''The influence of asymmetry ratio and average of the'''


* Hendrowati, W., Daman, A.A.A., Guntur, H.L., Darmawan, F.A. (2023). '''Analysis of''' '''Vibration Characteristics Due to the Effect of Adding Rubber Radial Vibratio''' '''Damper (RRVD) to the Boring Process''', pp. 69–78., 2023.<ref>{{Cite book|last=Hendrowati|first=Wiwiek|last2=Daman|first2=Aida Annisa Amin|last3=Guntur|first3=Harus Laksana|last4=Darmawan|first4=Fuad Adi|date=2022-08-19|url=http://dx.doi.org/10.1007/978-981-19-0867-5_9|title=Analysis of Vibration Characteristics Due to the Effect of Adding Rubber Radial Vibration Damper (RRVD) to the Boring Process|location=Singapore|publisher=Springer Nature Singapore|isbn=978-981-19-0866-8|pages=69–78}}</ref>
'''damping force on the Performance and ride comfort of a vehicle.''' ''International Journal Vehicle''


* Putranto, R.D., Guntur, H.L., Mahartana, I.B.P.P. (2022). '''Upgrade a Commercial Scooter''' '''with Direct In-Wheel Drive System Based on Design and Optimization.''' Proceedings - 2022. ''2nd International Conference on Electronic and Electrical'' ''Engineering and Intelligent System'', ICE3IS 2022, 2022, pp. 40–45.2022.<ref>{{Cite journal|last=Putranto|first=Rifki Dwi|last2=Guntur|first2=Harus Laksana|last3=Mahartana|first3=Ida Bagus Putu Putra|date=2022-11-04|title=Upgrade a Commercial Scooter with Direct In-Wheel Drive System Based on Design and Optimization|url=http://dx.doi.org/10.1109/ice3is56585.2022.10010274|journal=2022 2nd International Conference on Electronic and Electrical Engineering and Intelligent System (ICE3IS)|publisher=IEEE|doi=10.1109/ice3is56585.2022.10010274}}</ref>
''Systems Modelling and Testing, Vol. 11, No. 2, 2016.''<ref>{{Cite journal|last=Guntur|first=Harus Laksana|last2=Setiawan|first2=Listy Fazria|date=2016|title=The influence of asymmetry ratio and average of the damping force on the performance and ride comfort of a vehicle|url=http://www.inderscience.com/link.php?id=77924|journal=International Journal of Vehicle Systems Modelling and Testing|language=en|volume=11|issue=2|pages=97|doi=10.1504/IJVSMT.2016.077924|issn=1745-6436}}</ref>


* Yangindrajat, D., Guntur, H.L. (2022). '''Fuzzy Logic Control Strategy for Axial Flux''' '''Permanent Magnet Synchronous Generator in WHM 1.5KW.''' Proceedings - 2022 ''IEEE International Conference on Cybernetics and Computational Intelligence.''CyberneticsCom 2022, pp. 439–444. 2022.<ref>{{Cite journal|last=Yangindrajat|first=Demas|last2=Guntur|first2=Harus Laksana|date=2022-06-16|title=Fuzzy Logic Control Strategy for Axial Flux Permanent Magnet Synchronous Generator in WHM 1.5KW|url=http://dx.doi.org/10.1109/cyberneticscom55287.2022.9865461|journal=2022 IEEE International Conference on Cybernetics and Computational Intelligence (CyberneticsCom)|publisher=IEEE|doi=10.1109/cyberneticscom55287.2022.9865461}}</ref>
* Albana, M.H., Guntur, H.L., Putra, A.B.K. (2023). '''The Effect of Rotational Speed on the'''


* Subekti, Guntur, H.L., Djanali, V.S., Syaifudin, A. (2022). '''Simulation and Dynamic System''' '''Modeling in an Elastically Supported Rigid Cylinder for Vibration Energy''' '''Harvesting.''' ''Lecture Notes in Electrical Engineering'', 876, pp. 61–68. 2022.<ref>{{Cite book|last=Subekti|last2=Guntur|first2=Harus Laksana|last3=Djanali|first3=Vivien S.|last4=Syaifudin|first4=Achmad|date=2022|url=http://dx.doi.org/10.1007/978-981-19-1581-9_7|title=Simulation and Dynamic System Modeling in an Elastically Supported Rigid Cylinder for Vibration Energy Harvesting|location=Singapore|publisher=Springer Nature Singapore|isbn=978-981-19-1580-2|pages=61–68}}</ref>
'''Thermal Characteristics of a Wheel Hub Motor on an Electric Scooter.'''


* Pamuji, F.A., Danier, D., Soedibyo, Guntur H.L. et al. (2021). '''Application of Artificial''' '''Neural Network for Speed Control of BLDC Motor 90KW in Electrical Bus'''''.'' ''Przeglad Elektrotechniczny,'' 97(6), pp. 1–9. 2021.<ref>{{Cite journal|last=PAMUJI|first=Feby|date=2022-02-04|title=Application of Artificial Neural Network for Speed Control of BLDC Motor 90KW in Electrical Bus|url=http://dx.doi.org/10.15199/48.2022.02.47|journal=PRZEGLĄD ELEKTROTECHNICZNY|volume=1|issue=2|pages=205–212|doi=10.15199/48.2022.02.47|issn=0033-2097}}</ref>
''International Seminar on Intelligent Technology and Its Applications: Leveraging''


== Pranala luar ==
''Intelligent Systems to Achieve Sustainable Development Goals'', ISITIA- Proceeding, pp.

749–754. 2023.

* Guntur, H.L., Nugraha, D.K. (2023). '''Ball Screw Regenerative Shock Absorber Design and'''

'''Road Test for Small Class Multi Purposes Vehicle Suspension'''''.'' ''Lecture Notes in Recent Advances in''

''Mechanical Engineering'', pp. 79–89.2023.<ref>{{Cite book|last=Guntur|first=Harus Laksana|last2=Nugraha|first2=Dhion Khairul|date=2022-08-19|url=http://dx.doi.org/10.1007/978-981-19-0867-5_10|title=Ball Screw Regenerative Shock Absorber Design and Road Test for Small Class Multi Purposes Vehicle Suspension|location=Singapore|publisher=Springer Nature Singapore|isbn=978-981-19-0866-8|pages=79–89}}</ref>

* Albana, M.H., Guntur, H.L., Putra, A.B.K. (2023). '''The effect of grooves on the in-wheel'''

'''motor cover of an electric scooter to increase the heat transfer process'''<ref>{{Cite journal|last=Albana|first=Muhammad Hasan|last2=Guntur|first2=Harus Laksana|last3=Putra|first3=Ary Bachtiar Khrisna|date=2023-02-16|title=The effect of grooves on the in-wheel motor cover of an electric scooter to increase the heat transfer process|url=http://dx.doi.org/10.1109/iccosite57641.2023.10127695|journal=2023 International Conference on Computer Science, Information Technology and Engineering (ICCoSITE)|publisher=IEEE|doi=10.1109/iccosite57641.2023.10127695}}</ref>, ICCoSITE

2023 - ''International Conference on Computer Science, Information Technology and''

''Engineering: Digital Transformation Strategy in Facing the VUCA and TUNA Era'', pp.

84–89.2023.

* Hendrowati, W., Daman, A.A.A., Guntur, H.L., Darmawan, F.A. (2023). '''Analysis of'''

'''Vibration Characteristics Due to the Effect of Adding Rubber Radial Vibration'''

'''Damper (RRVD) to the Boring Process''', pp. 69–78., 2023.<ref>{{Cite book|last=Hendrowati|first=Wiwiek|last2=Daman|first2=Aida Annisa Amin|last3=Guntur|first3=Harus Laksana|last4=Darmawan|first4=Fuad Adi|date=2022-08-19|url=http://dx.doi.org/10.1007/978-981-19-0867-5_9|title=Analysis of Vibration Characteristics Due to the Effect of Adding Rubber Radial Vibration Damper (RRVD) to the Boring Process|location=Singapore|publisher=Springer Nature Singapore|isbn=978-981-19-0866-8|pages=69–78}}</ref>

* Putranto, R.D., Guntur, H.L., Mahartana, I.B.P.P. (2022). '''Upgrade a Commercial Scooter'''

'''with Direct In-Wheel Drive System Based on Design and Optimization.'''

Proceedings - 2022. ''2nd International Conference on Electronic and Electrical''

''Engineering and Intelligent System'', ICE3IS 2022, 2022, pp. 40–45.2022.<ref>{{Cite journal|last=Putranto|first=Rifki Dwi|last2=Guntur|first2=Harus Laksana|last3=Mahartana|first3=Ida Bagus Putu Putra|date=2022-11-04|title=Upgrade a Commercial Scooter with Direct In-Wheel Drive System Based on Design and Optimization|url=http://dx.doi.org/10.1109/ice3is56585.2022.10010274|journal=2022 2nd International Conference on Electronic and Electrical Engineering and Intelligent System (ICE3IS)|publisher=IEEE|doi=10.1109/ice3is56585.2022.10010274}}</ref>

* Yangindrajat, D., Guntur, H.L. (2022). '''Fuzzy Logic Control Strategy for Axial Flux'''

'''Permanent Magnet Synchronous Generator in WHM 1.5KW.''' Proceedings - 2022

''IEEE International Conference on Cybernetics and Computational Intelligence.''

CyberneticsCom 2022, pp. 439–444. 2022.<ref>{{Cite journal|last=Yangindrajat|first=Demas|last2=Guntur|first2=Harus Laksana|date=2022-06-16|title=Fuzzy Logic Control Strategy for Axial Flux Permanent Magnet Synchronous Generator in WHM 1.5KW|url=http://dx.doi.org/10.1109/cyberneticscom55287.2022.9865461|journal=2022 IEEE International Conference on Cybernetics and Computational Intelligence (CyberneticsCom)|publisher=IEEE|doi=10.1109/cyberneticscom55287.2022.9865461}}</ref>

* Subekti, Guntur, H.L., Djanali, V.S., Syaifudin, A. (2022). '''Simulation and Dynamic System'''

'''Modeling in an Elastically Supported Rigid Cylinder for Vibration Energy'''

'''Harvesting.''' ''Lecture Notes in Electrical Engineering'', 876, pp. 61–68. 2022.<ref>{{Cite book|last=Subekti|last2=Guntur|first2=Harus Laksana|last3=Djanali|first3=Vivien S.|last4=Syaifudin|first4=Achmad|date=2022|url=http://dx.doi.org/10.1007/978-981-19-1581-9_7|title=Simulation and Dynamic System Modeling in an Elastically Supported Rigid Cylinder for Vibration Energy Harvesting|location=Singapore|publisher=Springer Nature Singapore|isbn=978-981-19-1580-2|pages=61–68}}</ref>

* Pamuji, F.A., Danier, D., Soedibyo, Guntur H.L. et al. (2021). '''Application of Artificial'''

'''Neural Network for Speed Control of BLDC Motor 90KW in Electrical Bus'''''.''

''Przeglad Elektrotechniczny,'' 97(6), pp. 1–9. 2021.<ref>{{Cite journal|last=PAMUJI|first=Feby|date=2022-02-04|title=Application of Artificial Neural Network for Speed Control of BLDC Motor 90KW in Electrical Bus|url=http://dx.doi.org/10.15199/48.2022.02.47|journal=PRZEGLĄD ELEKTROTECHNICZNY|volume=1|issue=2|pages=205–212|doi=10.15199/48.2022.02.47|issn=0033-2097}}</ref>

== Pranala Luar ==
<references />
<references />
[[Kategori:Akademikus Indonesia]]

[[Kategori:Institut Teknologi Sepuluh Nopember]]
== Referensi ==
[[Kategori:Alumni Institut Teknologi Sepuluh Nopember]]
[[Kategori:Teknik Mesin]]
[[Kategori:Dosen Indonesia]]

Revisi terkini sejak 21 Februari 2024 13.58

Prof. Dr.Eng Harus Laksana Guntur, ST, M.Eng

Prof. Dr.Eng Harus Laksana Guntur, ST, M.Eng (lahir Pasuruan, 11 Mei 1975) adalah guru besar Fakultas Teknologi Industri dan Rekayasa Sistem Institut Teknologi Sepuluh Nopember (ITS). Beliau memiliki bidang keahlian Teknik Mesin, khususnya Rekayasa Peredam Getaran.

Pendidikan

[sunting | sunting sumber]

Harus menyelesaikan pendidikan tingkat sarjana di jurusan Teknik Mesin Institut Teknologi Sepuluh Nopember (lulus 1998). Kemudian melanjutkan studi pascasarjana Master of Engineering, Department of Mechano-Micro Engineering, Tokyo Institute of Technology, Jepang (Lulus 2005). Setelah itu langsung menyelesaikan program Doctor of Engineering, Department of Mechano-Micro Engineering, Tokyo Institute of Technology, Jepang (Lulus 2007).

Karir

[sunting | sunting sumber]

Harus mengawali karirnya di kampus sebagai Kepala Laboratorium Sistem Dinamis dan Vibrasi, Jurusan Teknik Mesin ITS (2012-2015) sekaligus Sekretaris Program Studi Pascasarjana (S2/S3), Jurusan Teknik Mesin, ITS (2012-2015).

Setelah itu ia menjabat sebagai Sekretaris Lembaga Penelitian dan Pengabdian Masyarakat (LPPM) ITS, (2015-2019), kemudian menjadi Kepala Lembaga Penelitian dan Pengabdian Masyarakat (LPPM) ITS, (Juli –Desember 2019).

Saat ini, Harus menjabat sebagai Kepala Program Studi Pascasarjana (S2/S3), Jurusan Teknik Mesin, ITS sejak tahun 2020 sampai sekarang.[1]

Kegiatan di Laboratorium RVSO

Prestasi

[sunting | sunting sumber]

1. Ketua Ormawa-Robotika Jurusan Teknik Mesin, ITS (1995 - 1996)

2. Ketua LSM – Institute of Rural Development Indonesia (IRDI), Jepang (2005 - 2007)

3. Ketua LSM- Masyarakat Anti Korupsi (MASA), Jepang (2005 - 2007)

4. Ketua Persatuan Pelajar Indonesia, Tokyo Institute of Technology, Jepang (2004 -2005)

5. Ketua Bidang Pendidikan, Persatuan Pelajar Indonesia [PPI] Pusat, Jepang (2005 - 2007)

6. Anggota American Society of Mechanical Engineer [2] [ASME] (2020 - Sekarang)

7. Anggota Japan Society of Mechanical Engineer [JSME], Jepang (2005 - Sekarang)

8. Dewan Pakar, IKA ITS Jawa Timur (2023 - Sekarang)

9. Wakil Sekretaris Asosiasi Profesor Indonesia [API] (2023 - Sekarang)

10. Ketua Bidang Teknologi, Dewan Pimpinan Pusat, Ikatan Pesantren Indonesia [IPI] (2023 - Sekarang)

Karya Ilmiah

[sunting | sunting sumber]
  • H.L.Guntur, W.Hendrowati. Scryptian NH.Zuhri (2020). Designing hydro magneto electric regenerative shock absorber for vehicle suspension considering conventional viscous shock absorber performance. Journal of Mechanical Science and Technology, Vol.34 (1), 55 – 67. 2020, KSME-Springer, 2020.[3]
  • H.L.Guntur, Listy Fazria S (2016). The influence of asymmetry ratio and average of the damping force on the Performance and ride comfort of a vehicle. International Journal Vehicle Systems Modelling and Testing, Vol. 11, No. 2, 2016.[4]
  • Albana, M.H., Guntur, H.L., Putra, A.B.K. (2023). The Effect of Rotational Speed on the Thermal Characteristics of a Wheel Hub Motor on an Electric Scooter. International Seminar on Intelligent Technology and Its Applications: Leveraging Intelligent Systems to Achieve Sustainable Development Goals, ISITIA- Proceeding, pp. 749–754. 2023.
  • Guntur, H.L., Nugraha, D.K. (2023). Ball Screw Regenerative Shock Absorber Design and Road Test for Small Class Multi Purposes Vehicle Suspension. Lecture Notes in Recent Advances in Mechanical Engineering, pp. 79–89.2023.[5]
  • Albana, M.H., Guntur, H.L., Putra, A.B.K. (2023). The effect of grooves on the in-wheel motor cover of an electric scooter to increase the heat transfer process[6], ICCoSITE 2023 - International Conference on Computer Science, Information Technology and Engineering: Digital Transformation Strategy in Facing the VUCA and TUNA Era, pp. 84–89.2023.
  • Hendrowati, W., Daman, A.A.A., Guntur, H.L., Darmawan, F.A. (2023). Analysis of Vibration Characteristics Due to the Effect of Adding Rubber Radial Vibratio Damper (RRVD) to the Boring Process, pp. 69–78., 2023.[7]
  • Putranto, R.D., Guntur, H.L., Mahartana, I.B.P.P. (2022). Upgrade a Commercial Scooter with Direct In-Wheel Drive System Based on Design and Optimization. Proceedings - 2022. 2nd International Conference on Electronic and Electrical Engineering and Intelligent System, ICE3IS 2022, 2022, pp. 40–45.2022.[8]
  • Yangindrajat, D., Guntur, H.L. (2022). Fuzzy Logic Control Strategy for Axial Flux Permanent Magnet Synchronous Generator in WHM 1.5KW. Proceedings - 2022 IEEE International Conference on Cybernetics and Computational Intelligence.CyberneticsCom 2022, pp. 439–444. 2022.[9]
  • Subekti, Guntur, H.L., Djanali, V.S., Syaifudin, A. (2022). Simulation and Dynamic System Modeling in an Elastically Supported Rigid Cylinder for Vibration Energy Harvesting. Lecture Notes in Electrical Engineering, 876, pp. 61–68. 2022.[10]
  • Pamuji, F.A., Danier, D., Soedibyo, Guntur H.L. et al. (2021). Application of Artificial Neural Network for Speed Control of BLDC Motor 90KW in Electrical Bus. Przeglad Elektrotechniczny, 97(6), pp. 1–9. 2021.[11]

Pranala luar

[sunting | sunting sumber]
  1. ^ Wulandari, Trisna. "ITS Umumkan 20 Bakal Calon Rektor Periode 2024-2029". detikedu. Diakses tanggal 2023-11-08. 
  2. ^ "ASME Membership - ASME". www.asme.org (dalam bahasa Inggris). Diakses tanggal 2023-11-08. 
  3. ^ Guntur, Harus Laksana; Hendrowati, Wiwiek; Syuhri, Skriptyan N. H. (2020-01). "Designing hydro-magneto-electric regenerative shock absorber for vehicle suspension considering conventional-viscous shock absorber performance". Journal of Mechanical Science and Technology (dalam bahasa Inggris). 34 (1): 55–67. doi:10.1007/s12206-019-1205-1. ISSN 1738-494X. 
  4. ^ Guntur, Harus Laksana; Setiawan, Listy Fazria (2016). "The influence of asymmetry ratio and average of the damping force on the performance and ride comfort of a vehicle". International Journal of Vehicle Systems Modelling and Testing (dalam bahasa Inggris). 11 (2): 97. doi:10.1504/IJVSMT.2016.077924. ISSN 1745-6436. 
  5. ^ Guntur, Harus Laksana; Nugraha, Dhion Khairul (2022-08-19). Ball Screw Regenerative Shock Absorber Design and Road Test for Small Class Multi Purposes Vehicle Suspension. Singapore: Springer Nature Singapore. hlm. 79–89. ISBN 978-981-19-0866-8. 
  6. ^ Albana, Muhammad Hasan; Guntur, Harus Laksana; Putra, Ary Bachtiar Khrisna (2023-02-16). "The effect of grooves on the in-wheel motor cover of an electric scooter to increase the heat transfer process". 2023 International Conference on Computer Science, Information Technology and Engineering (ICCoSITE). IEEE. doi:10.1109/iccosite57641.2023.10127695. 
  7. ^ Hendrowati, Wiwiek; Daman, Aida Annisa Amin; Guntur, Harus Laksana; Darmawan, Fuad Adi (2022-08-19). Analysis of Vibration Characteristics Due to the Effect of Adding Rubber Radial Vibration Damper (RRVD) to the Boring Process. Singapore: Springer Nature Singapore. hlm. 69–78. ISBN 978-981-19-0866-8. 
  8. ^ Putranto, Rifki Dwi; Guntur, Harus Laksana; Mahartana, Ida Bagus Putu Putra (2022-11-04). "Upgrade a Commercial Scooter with Direct In-Wheel Drive System Based on Design and Optimization". 2022 2nd International Conference on Electronic and Electrical Engineering and Intelligent System (ICE3IS). IEEE. doi:10.1109/ice3is56585.2022.10010274. 
  9. ^ Yangindrajat, Demas; Guntur, Harus Laksana (2022-06-16). "Fuzzy Logic Control Strategy for Axial Flux Permanent Magnet Synchronous Generator in WHM 1.5KW". 2022 IEEE International Conference on Cybernetics and Computational Intelligence (CyberneticsCom). IEEE. doi:10.1109/cyberneticscom55287.2022.9865461. 
  10. ^ Subekti; Guntur, Harus Laksana; Djanali, Vivien S.; Syaifudin, Achmad (2022). Simulation and Dynamic System Modeling in an Elastically Supported Rigid Cylinder for Vibration Energy Harvesting. Singapore: Springer Nature Singapore. hlm. 61–68. ISBN 978-981-19-1580-2. 
  11. ^ PAMUJI, Feby (2022-02-04). "Application of Artificial Neural Network for Speed Control of BLDC Motor 90KW in Electrical Bus". PRZEGLĄD ELEKTROTECHNICZNY. 1 (2): 205–212. doi:10.15199/48.2022.02.47. ISSN 0033-2097. 
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