Relatively Compactness on Some Hyperspaces Associated with Riemannian Manifolds

Article Sidebar

Page Numbers: 442-455
Download PDF
Published: Mar 11, 2025
Digital Object Identifier: 10.58578/ajstea.v3i2.5062
Save this to:
Save to Mendeley Download RIS

Article Metrics:
Viewed: 273 times
Downloaded: 202 times
Article can trace at:

Author Fee:
Free Publication Fees for Foreign Researchers (USD 0.00)
Check for article on SINTA:

LYAS Publisher cordially invites qualified professionals to serve as Editors or Reviewers. Your expertise will make an important contribution to maintaining and strengthening the academic quality of our publications. Interested applicants are kindly requested to complete the application form at the following link: Editors & Reviewers

Connected Papers:
Connected Papers

Please feel free to contact us if you need any further information about the submission process or if you have any additional questions.

Authors:
Monsuru A Morawo1*
Copyright :

Authors retain copyright and grant the journal right of first publication.


Main Article Content

Monsuru A Morawo
Bells University of Technology, Ota, Ogun State, Nigeria

Abstract

In this paper, we defined relatively compactness on hyperspaces CL(X) and C(X) of Riemannian metric space  and relatively compactness theorem about metric spaces in the Gromov sense. Some classes of Riemannian manifolds as applications were defined.

Keywords:
Share Article:

Citation Metrics:

 Scopus



Downloads

Download data is not yet available.

Scopus Citation Data

Data source Crossref
0
citations
Check Secondary Documents in Scopus
Open this article in Scopus, then check the Secondary documents tab. Use Manual Citation Fallback only for counts you have verified manually.
Open in Scopus
Similar Scopus Articles
Scopus
  1. Makwana V.M. (2027)
    AQUATIC INSECT DIVERSITY AND ASSOCIATED AVIAN FEEDING GUILDS: A BASELINE STUDY FROM SEMI-ARID WETLANDS OF GUJARAT, WESTERN INDIA
    Indian Journal of Entomology, 89(1), 223-230
  2. Guerfi I. (2027)
    INVENTORY OF ORTHOPTERA ASSOCIATED WITH CEREAL CROPS IN THE CONSTANTINE REGION, EASTERN ALGERIA, AND FEEDING ECOLOGY OF THE TWO MOST FREQUENT SPECIES
    Indian Journal of Entomology, 89(1), 131-136
  3. Shimada T. (2027)
    Patient Characteristics Associated With Preference for 480-mL Oral Sodium Sulfate: A Prospective Clinical Study on Bowel Cleansing Efficacy and Taste Acceptability for Total Colonoscopy
    Den Open, 7(1)

Article Details

How to Cite
Morawo, M. A. (2025). Relatively Compactness on Some Hyperspaces Associated with Riemannian Manifolds. Asian Journal of Science, Technology, Engineering, and Art, 3(2), 442-455. https://doi.org/10.58578/ajstea.v3i2.5062
Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

Creative Commons License
Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.

References

Ahmadu, K., and Monsuru, A. M. (2021). On some topological properties on a certain hyperspace topology. IOSR Journal of Mathematics. 17(1), 34-38.

Alexander, V. O., and Oscag., S. (2017). Variation of selective separability and tightness in function spaces with set open topology. Topology and its applications 217. 38 – 50.

Ahmad, O., and Takashi, N. (2018). On z- compact spaces and some functions. BOI. Soc. Paran, Math, .36(5). 121 – 130.

Beshimou, R.B., and Savarova, D.T. (2019). Topological Properties of hyperspaces. Bullettin of National University of Uzbekistan: Mathematics and Natural Sciences. Vol. 2

Dong, M. (2018). Group Actions from measure theoretical viewpoint. Ph.D. thesis, Chungnan National University in Daejeon.

Di Caprio, D., and Meccariello, E. (2000). Notes on separation axioms in hyperspaces. I.Q and A in general topology. Vol. 18. 65 – 86.

Dong, C., and Gabjin, Y. (2000). “Gromov – Hausdorff Topology and its application to Riemannia Manifold.

Engelking, R., and Siekluchi, K. (1992). Topology: A geometric approach. Heldermann Verlag.

Fremlin, D.H. (2019). Measure theory. Volume 5. University of Essex.

Facundo, M and Zhengchao (2021). Charaterization of Gromov – type geodesics. Department of Mathematics and Computer Science and Engineering, The Ohio State University.

Facundo, M. (2012). Some properties of Gromov – Hausdorff distance. Discrete compute Geom. 48. 416 – 440.

Fernandez, U.M. (2018). The segre cone of Banach spaces and multilinear mappings. Linear multilinear Algebra. 10.1080/03081087.2018.1509938.

Fell, J. (1962). A Hausdorff topology for the closed subset of a locally compact and non – Hausdorff spaces. Proc. Amer.Math.Soc.13, 472 – 476.

Jerolina, F., Neeraj, M., Anas, S., Marija, P., and Zoran, D. (2022). The extended cone b – metric – like spaces over Banach algebra and some application. MDPI Journal. Vol 10.

Lee, G.T. (2018). Abstract algebra: An introductory course. Springer Undergraduate Mathematics Series, Canada. Doi: 10.1007/978 – 3 – 319.

Masaki, M. (2022) “Mean Hausdorff Dimension of some infinite dimensional fractals”2020 Mathematics subject classification.

Monsuru, A.M., Ahmadu, K., and Balla, M. Y. (2020). On the comparative study of compactness and some of its relative notions in Metric and Topological spaces. International Journal of scientific and Research Publication, Vol. 10 Issue 10. 659 – 665.

Murray. (2021). The 54th Spring Topology and Dynamic Conference. Murray State University. USA.

Marc, C. (2009). Volume and Topology

Mehdi, A., and Hossein, S. (2012). Examples in Cone Metric spaces: A survey. Middle – East Journal of Scientific Research. 11(12): 1636 – 1640.

Olaf, M. (2021) “Gheeger – Gromov compactness theorem for Manifold with boundary. Adv. Math. 224 – 240.

Olaf, M. (2021). Gheeger – Gromov compactness for manifold with boundary. Adv. Math. 224 – 240.

Oxtoby, J.C. (1971). Measure and category: A survey of analogies between topological and measure spaces. Springer.

Olga, G.M., and Peter W.M. (1991). The Riemannian manifold of all Riemannia metrics. Quarterly Oxford Journal of Mathematics 42(183 - 202).

Paige, D. (2022). Hausdorff Dimension and Projection

Pratulananda, D., Sadip, P., and Nayan, A. (2021). On certain notions of precompactness, continuity, and Lipschitz functions. Cornell University.

Perelman, G. (1995). Spaces with curvature bounded below. Proceedings of international congress of Mathematics.

Roydon, H.L. (2000). Real Analysis. New Delhi.

Richmond, K.G., William, O. D., and Fred, A. (2022). Topological spaces with emphases on the sphere and its application. Full Length Research Article.

Knox, K.S. (2013) “Compactness theorems for Riemannian Manifolds with Boundary and Application” Ph.D. thesis, Stony brook University.

Sergio, A. (2002) “A compactness theorem for scaler – flat metrics on manifold with boundary” Cal. Var. Partial differential equations 41(2011), 341 – 386.

Satvik, S. (2022) “A brief discourse on Hausdorff dimension and self – similarity” The American Mathematical Monthly. Vol.129, Issue 9, 123 – 144.

Victor, D., Natalia, J., and Ananda, L. (2021). Some Notes On Induced Functions and Group Actions On Hyperspace. 2010 Mathematics Subjects Classification. Department De Mathematicas, Facultad de Ciencias, Mexico. Volume 4, page 1-23.

Valov, V. (2020). Homogeneous Metric ANR Compacta. 2000 Mathematical Classification.

Willard, S. (2004). General topology. Additson – Wesley.

Wallace, A. H. (2007). Algebraic topology: Homology and cohomology. Benjamin, 1972, Dover.

Watson, W.S. (1981). Pseudo compact metacompact spaces are compact. Proc. Amer. Math. Soc,81, 151 - 152


Explore Our Journals
Find the most suitable journal for your research. If this journal does not fully align with the scope of your manuscript, we invite you to explore our wider portfolio of journals covering diverse fields of study. Please select one of the journals below to identify the most appropriate publication platform for your work.