Julian Adam Wise Explained

Julian Wise
Birth Name:Julian Adam Wise
Birth Date:October 29, 1990
Birth Place:Melbourne
Nationality:Australian
Children:0

Julian Adam Wise (born October 29, 1990) is an Australian technical lead and innovator best known for leading the building of Artificial Intelligence platforms for multi-national companies, contributions to spatial technologies, and as a pioneer of MLOps as an AI methodology. Wise demonstrated the ability of his AI Platform's to rapidly scale time-to-delivery for AI Models, within the field of Machine Learning Operations (MLOps).[1] Wise also heavily contributed to Geospatial intelligence through the co-founding of CSIRO's VoxelNET Program.[2] Wise's contributions to Science, Technology, and Business have spanned over Mining Technology, Robotics, Artificial Intelligence and Industrial Software Systems.

Early life and education

Wise was born and raised in Melbourne, Australia. Wise's mother's side of the family through Godfrey Cohen draws their arrival to Australia to the larger Solomon family[3] [4] and Cashmore Family of Australian Jewish pioneers, amongst whose descendants many achieved a degree of notability.

During his studies of Software Engineering, Wise worked with CSIRO, the Australian national science agency on Artificial Intelligence to place a cognitive architecture onto drones for autonomous cave exploration and simulation.[5] The intellectual property generated was collected by CSIRO and commercialized into the Emesent program.

Spatial technology development

After working in Israel, Julian accepted a role with Mining3, a private Mining Research Institute in collaboration with CSIRO. During this time, Wise published with Cambridge University Press on Legal Smart Contracts for derivative trades of mineral stockpiles.[6]

AI for private industry & mining technology

As a professional consultant, Wise commenced as an AI engineer with Newcrest, to build AI Platforms and productionise machine learning models on said platforms. It was during this time that Wise created three AI platforms within the sub-field of MLOps for Newcrest. One to production models in Azure with Python, one open source MLFlow Platform for the life-cycle management of AI models produced in R, and one to productions custom modified Kubeflow platform to production models produced in MATLAB.

Wise achieved Consultant of the Year in 2021 with the Fortune 500 Organisation he was employed by, Insight Enterprises. During this period, Julian relocated to South America to build the AI Platform for BHP's Latin American operations. The platform was hallmarked as revolutionary and improved the time to deliver solutions from months to weeks.[7] The features included automated retraining, model cataloging, performance cataloging, performance-to-model-to-code lineage. During this time Wise authored the AI and Machine Learning Global Technology Standards, to govern the management of BHP's AI models over their operational lifecycle. The methodology was validated with a challenge to deliver a project which would normally take twelve months, to deliver in twelve weeks. The project was a decisive success and the uplift in copper recovery for Escondida Mine was demonstrated with the outcomes published to a peer-reviewed scientific journal[8] of the value generated through Copper Concentrator optimizations.

Research and impact

Registered patents

CountryOfficial No.TitleFiling Date
Australia2017903626[12] Spatial Data Processing System and Method7 September 2017
Australia2018328754Spatial Data Processing System and Method7 September 2018
BrazilBR 11 2020 004515 2[13] Spatial Data Processing System and Method7 September 2018
Canada3075119[14] Spatial Data Processing System and Method7 September 2018
Chile00550-2020[15] Spatial Data Processing System and Method7 September 2018
ColombiaNC2020/0004013[16] Spatial Data Processing System and Method7 September 2018
ChinaNC2020/0004013[17] Spatial Data Processing System and Method7 September 2018
Europe18854546.1[18] Spatial Data Processing System and Method7 September 2018
IndonesiaP00202002451Spatial Data Processing System and Method7 September 2018
India202037011292[19] Spatial Data Processing System and Method7 September 2018
Japan2020-513804[20] Spatial Data Processing System and Method7 September 2018
Republic of Korea10-2020-7010049[21] Spatial Data Processing System and Method7 September 2018
New Zealand762669[22] Spatial Data Processing System and Method7 September 2018
PeruPCT/AU2018/050969Spatial Data Processing System and Method7 September 2018
Russian Federation762669[23] Spatial Data Processing System and Method7 September 2018
United States of America16/645419Spatial Data Processing System and Method7 September 2018
South Africa2020/01681Spatial Data Processing System and Method7 September 2018
Patent Co-Operation TreatyPCT/AU2018/050969[24] Spatial Data Processing System and Method7 September 2018

Available publications

!Publishing Body!Title!Field!Description!Year
Cambridge University PressLegal Smart Contracts for Derivative Trading in MiningList Stockpiles reserves to finalization before full mineral extract via Legal Smart Contracts on Distributed Ledgers. 2020
IEEEDerivative Trading through Legal Smart Contracts.[25] Legal Smart Contracts, Mineral Stockpiles, Tailings Dams,Blockchain,Financial technology, Financial OptionsList Stockpiles reserves to finalization before full mineral extract via Legal Smart Contracts on Distributed Ledgers. 2019
Gecamin Latin AmericaImproving BHP project delivery timelines with machine learning operations and cloud technology.Machine Learning Operations, Data Science, Data Governance, Performance Engineering,Mineral processingSpeed up AI productionisation for BHP Latin America, and apply governance standards by design with MLOps.2023
Gecamin Latin AmericaMaximize rougher stage recovery with mineralogy and probes for integrated AI models.Rougher Optimisation, Mine Engineering, Mineral processing, Data ScienceDemonstrated use of data science to boost copper recovery for Escondido mine. 2023
Gecamin Latin AmericaBHP and the Internet of things (IoT) edge implementation at Escondida Mine.[26] Proof of Value Decision Automation for Escondido Mine. 2023
International Conference on Artificial Intelligence Proceedings (2016)REACT-R and Unity integration.[27] Digital Twins, Cogntive Architecture, Drone IntelligenceUnderground mine exploration with cognitive architectures on drones in 3D spatial digital twins. 2016

See also

References

  1. Wise . Julian . Etcheberry . Juan . Medinelli . Luis . Matamala . Yerko . Baijanth . Devesh . 1 October 2023 . Improving BHP project delivery timelines with Machine Learning Operations and Cloud Technology . International Congress on Automation, Robotics and Digitalization in Mining . 10 . 1 . 82.
  2. us. 11265401. Julian Wise. approved. Spatial data processing system and method. 2022/03/01. 2018/09/07.
  3. Web site: Godfrey Abraham Cohen (1909-2004) . 27 July 2019 .
  4. Book: Cohen, Trevor . The Greatest Gift . Real Publishing . 2022 . 978-0-645213195 . 1st . Australia . 18–19.
  5. Book: Salt . Llewyn . ICAI 2016: proceedings of the 2016 International Conference on Artificial Intelligence: WORLDCOMP'16, July 25-28, 2016, Las Vegas, Nevada, USA . Wise . Julian . Sennersten . Charlotte . Lindley . Craig . 2016 . CSREA Press . 978-1-60132-438-2 . Wise . Julian . U.S.A. . 31–37.
  6. Wise . Julian Adam . Chan . Meng Chak . Tadic . Dihon . Miles . Stephanie . Cornish . Jack . Sellers . Ewan . Brenecki . David . Dzakpata . Isaac . Murugesan . Barti . January 2020 . Legal smart contracts for derivative trading in mining . The Knowledge Engineering Review . en . 35 . e10 . 10.1017/S0269888920000144 . 214730318 . 0269-8889.
  7. Wise . Julian Adam . June 2023 . BHP and the internet of things (IoT) edge implementation at Escondida Mine . International Congress on Automation, Robotics and Digitalization in Mining . 10 . 82–84 . 978-956-397-068-5.
  8. Matamala . Yerko . Cáceres . José . Wise . Julian . Terrazas . José . Rubio . Alejandro . June 2023 . Maximizar recuperación en etapa rougher con mineralogía y sondas para modelos de IA integrados . International Congress on Automation, Robotics and Digitalization in Mining . 10 . 101–103 . 978-956-397-068-5.
  9. Web site: BHP unleashes the power of digital at world's largest copper mine – Microsoft Australia News Centre . 2023-12-23 . news.microsoft.com.
  10. Web site: Burton . Melanie . 2023-05-30 . BHP taps Microsoft, AI, to improve recovery at top copper mine . live . https://web.archive.org/web/20231223235737/https://www.reuters.com/markets/commodities/bhp-taps-microsoft-ai-improve-recovery-top-copper-mine-2023-05-30/ . 23 December 2023 . 23 December 2023 . Rueters.
  11. Web site: 2023-05-30 . BHP Group (BHP) & Microsoft Team Up to Use AI at Escondida . 2023-12-24 . Yahoo Finance . en-US.
  12. US20200213426A1. Spatial data processing system and method. 2020-07-02. Sennersten. Lindley. Evens. Grace. Charlotte. Craig A.. Ben. Alex.
  13. BR112020004515A2. spatial data processing system and method. 2020-09-08. Sennersten. Lindley. Evans. Grace. Charlotte. Craig A.. Ben. Alex.
  14. CA3075119A1. Spatial data processing system and method. 2019-03-14. SENNERSTEN. Lindley. Evans. GRACE. Charlotte. Craig A.. Ben. Alex.
  15. CL2020000550A1. System and method of processing spatial data. 2020-11-13. Sennersten. Lindley. Evans. Grace. Charlotte. Craig A.. Ben. Alex.
  16. CO2020004013A2. Spatial data processing system and method. 2020-08-31. Sennersten. Lindley. Evans. Grace. Charlotte. Craig A.. Ben. Alex.
  17. CN111316332A. Spatial data processing system and method. 2020-06-19. 夏洛特·森纳斯滕. 克雷格·A·林德利. 本·埃文斯. 亚历克斯·格蕾丝.
  18. Web site: Sennersten . Charlotte . Lindley . Craig . Evans . Ben . Wise . Julian . 2020-07-02 . SPATIAL DATA PROCESSING SYSTEM AND METHOD . 2023-12-24 . worldwide.space net.com.
  19. Sennersten . Charlotte . Lindley . Craig . Evans . Ben . Wise . Julian . Grace . Alex . 2020-05-06 . SPATIAL DATA PROCESSING SYSTEM AND METHOD . Patent Application Publication India . 1 . 1 . 95.
  20. JP7267261B2. Spatial data processing system and method. 2023-05-01. シャーロット・セナーステン. クレイグ・エー・リンドリー. ベン・エヴァンズ. アレックス・グレース.
  21. KR20200057723A. Spatial data processing system and method. 2020-05-26. 세너스텐. 린들리. 에반스. 그레이스. 샬롯. 크레익 에이. 벤. 알렉스.
  22. Web site: Sennersten . Charlotte . Lindley . Craig . Evans . Ben . Wise . Julian . 2019-03-19 . SPATIAL DATA PROCESSING SYSTEM AND METHOD . Intellectual Property Office of New Zealand.
  23. RU2020112409A. System and method of processing spatial data. 2021-10-07. СЕННЕРСТЕН. ЛИНДЛИ. ЭВАНС. ГРЕЙС. Шарлотт. Крейг А.. Бен. Алекс.
  24. WO2019046899A1. Spatial data processing system and method. 2019-03-14. SENNERSTEN. Lindley. Evans. GRACE. Charlotte. Craig A.. Ben. Alex.
  25. Wise . Julian . Miles . Stephanie . Cornish . Jack . Chak . Meng . 2019-03-17 . Derivative Trading through Legal Smart Contracts . IEEE 3rd Symposium in Distributed Ledger Proceedings . 3 . 1.
  26. Wise . Julian . Medinelli . Luis . Brady . Stuart . Rodríguez . Marlon . 2023-06-10 . BHP and the internet of things (IoT) edge implementation at Escondida Mine . International Congress on Automation, Robotics and Digitalization . 10 . 1 . 89–91 . 978-956-397-068-5.
  27. Salt . Llewyn . Wise . Julian . Sennersten . Charlotte . Lindley . Craig . REACT-R and Unity Integration . The 2016 International Conference on Artificial Intelligence - Monte Carlo Resort, Las Vegas, United States . 1 . 1 . 1.