Profiles

Abera, Aregawi

UTAS Home Mr Aregawi Abera

Aregawi Abera

PhD Candidate

Room 427 , Physics Building, Level 3

Stochastic Modeling of Patient Flow in Hospitals

The aim of this project is to develop modelling tools for the analysis of the patient flow and optimal bed allocation algorithm for the patients in the Emergency Department to the wards.

You can connect with Aregawi Abera on LinkedInReseachGate, Google Scholar and ORCID.

View more on Mr Aregawi Abera in WARP

Fields of Research

  • Stochastic analysis and modelling (490510)

Research Objectives

  • Expanding knowledge in the mathematical sciences (280118)
  • Expanding knowledge in the health sciences (280112)

Publications

Total publications

3

Journal Article

(1 outputs)
YearCitationAltmetrics
2020Abera A, O'Reilly MM, Fackrell M, Holland BR, Heydar M, 'On the decision support model for the patient admission scheduling problem with random arrivals and departures: A solution approach', Stochastic Models, 36, (2) pp. 312-336. ISSN 1532-6349 (2020) [Refereed Article]

DOI: 10.1080/15326349.2020.1742161 [eCite] [Details]

Citations: Scopus - 2Web of Science - 2

Co-authors: O'Reilly MM; Holland BR; Heydar M

Tweet

Conference Publication

(2 outputs)
YearCitationAltmetrics
2022Abera AK, O'Reilly MM, Turner R, 'Stochastic modelling of the admissions of surgery patients in a random environment', The Eleventh International Conference on Matrix-Analytic Methods in Stochastic Models (MAM11) Proceedings, 29 June - 1 July 2022, Seoul, Republic of Korea, pp. 1-5. (2022) [Refereed Conference Paper]

[eCite] [Details]

Co-authors: O'Reilly MM; Turner R

2019Abera A, O'Reilly MM, Holland BR, Fackrell M, Heydar M, 'Decision support model for the patient admission scheduling problem with random arrivals and departures', Proceedings of the 10th International Conference on Matrix-Analytic Methods in Stochastic Models, 13-15 February 2019, Hobart, Australia, pp. 10-14. (2019) [Refereed Conference Paper]

[eCite] [Details]

Co-authors: O'Reilly MM; Holland BR; Heydar M

Tweet