Authors

  • Sharibayev Nosir Yusupjanovich
    Namangan Engineering and Technology Institute, Uzbekistan
  • Djurayev Sherzod Sobirjonovich
    Namangan Engineering and Technology Institute, Uzbekistan
  • Tursunov Axrorbek Aminjon o‘g‘li
    Namangan Engineering and Technology Institute, Uzbekistan
  • Kodirov Dilmurod Tuxtasunovich
    Namangan Engineering and Technology Institute, Uzbekistan

DOI:

https://doi.org/10.37547/ajast/Volume03Issue12-08

Keywords:

Business Continuity Management Risk Assessment Incident Management

Abstract

This article explores SeCube's role in implementing Business Continuity Management (BCM) across various industries. SeCube, a versatile information security management system, offers tools and functionalities critical for developing, maintaining, and testing business continuity plans. The discussion includes SeCube’s capabilities in risk assessment, incident management, recovery planning, and compliance with industry-specific regulations. The article aims to provide insights into how SeCube enhances the resilience of businesses by ensuring continuity and rapid recovery in the face of disruptions.


background image

Volume 03 Issue 12-2023

37


American Journal Of Applied Science And Technology
(ISSN

2771-2745)

VOLUME

03

ISSUE

12

Pages:

37-39

SJIF

I

MPACT

FACTOR

(2021:

5.

705

)

(2022:

5.

705

)

(2023:

7.063

)

OCLC

1121105677















































Publisher:

Oscar Publishing Services

Servi

ABSTRACT

This article explores SeCube's role in implementing Business Continuity Management (BCM) across various industries.
SeCube, a versatile information security management system, offers tools and functionalities critical for developing,

maintaining, and testing business continuity plans. The discussion includes SeCube’s capabilities in risk assessment,

incident management, recovery planning, and compliance with industry-specific regulations. The article aims to
provide insights into how SeCube enhances the resilience of businesses by ensuring continuity and rapid recovery in
the face of disruptions.

KEYWORDS

Business Continuity Management, SeCube, Risk Assessment, Incident Management, Recovery Planning, Industry
Compliance.

Research Article

SECUBE'S ROLE IN IMPLEMENTING BUSINESS CONTINUITY PLANS
(BCM) IN VARIOUS INDUSTRIES

Submission Date:

December 10, 2023,

Accepted Date:

December 15, 2023,

Published Date:

December 20, 2023

Crossref doi:

https://doi.org/10.37547/ajast/Volume03Issue12-08


Sharibayev Nosir Yusupjanovich

Namangan Engineering and Technology Institute, Uzbekistan


Djurayev Sherzod Sobirjonovich

Namangan Engineering and Technology Institute, Uzbekistan

Tursunov Axrorbek Aminjon o‘g‘l

i

Namangan Engineering and Technology Institute, Uzbekistan


Kodirov Dilmurod Tuxtasunovich

Namangan Engineering and Technology Institute, Uzbekistan

Journal

Website:

https://theusajournals.
com/index.php/ajast

Copyright:

Original

content from this work
may be used under the
terms of the creative
commons

attributes

4.0 licence.


background image

Volume 03 Issue 12-2023

38


American Journal Of Applied Science And Technology
(ISSN

2771-2745)

VOLUME

03

ISSUE

12

Pages:

37-39

SJIF

I

MPACT

FACTOR

(2021:

5.

705

)

(2022:

5.

705

)

(2023:

7.063

)

OCLC

1121105677















































Publisher:

Oscar Publishing Services

Servi

INTRODUCTION

In today's dynamic business environment, ensuring
operational continuity in the face of disruptions is
essential. SeCube, as a comprehensive information
security management tool, plays a pivotal role in
implementing Business Continuity Management (BCM)
across various industries. This article examines

SeCube’s effectiveness in facilitating BCM strategies,

focusing on its capabilities in risk management,
incident

response,

and

recovery

planning.

Understanding the application of SeCube in BCM is
vital for organizations striving to minimize downtime
and maintain business operations under adverse
conditions.

Main Study Sections

Risk Assessment and Business Impact Analysis with
SeCube

SeCube provides robust risk assessment tools that help
identify and evaluate risks that could impact business
continuity. The system assists in conducting business
impact analysis, enabling organizations to prioritize
resources and functions critical for continuity.

Incident Management and Response Coordination

SeCube’s incident management feature allows for

effective tracking and management of incidents that
could disrupt business operations. The platform
facilitates coordination and communication among
response teams, which is crucial for timely and
effective incident response.

Development and Maintenance of Business Continuity
Plans

SeCube supports the development and maintenance
of comprehensive business continuity plans, aligning

them with industry-specific requirements. The system
provides tools for regular testing and updating of
continuity plans, ensuring they remain effective and
relevant.

Compliance with Industry Regulations and Standards

SeCube aids in ensuring compliance with industry-
specific regulations and standards related to business
continuity. The system offers reporting and
documentation

tools

that

help

demonstrate

compliance during audits and assessments.

Application Across Industries

The adaptability of SeCube makes it suitable for various
industries,

including

finance,

healthcare,

manufacturing, and IT. Case studies from different
sectors highlight how SeCube has been effectively
used to implement and manage BCM.

CONCLUSION

SeCube plays a crucial role in implementing and
managing Business Continuity Management across
various industries. Its comprehensive features in risk
assessment, incident management, and recovery
planning enable organizations to prepare for, respond
to, and recover from disruptions effectively. The
flexibility and adaptability of SeCube ensure its
applicability in diverse industrial contexts, making it a
valuable tool for organizations looking to enhance
their resilience and maintain continuous operations.
Effective BCM implementation with SeCube requires a
thorough understanding of industry-specific risks and
continuous plan testing and updates.

REFERENCES


background image

Volume 03 Issue 12-2023

39


American Journal Of Applied Science And Technology
(ISSN

2771-2745)

VOLUME

03

ISSUE

12

Pages:

37-39

SJIF

I

MPACT

FACTOR

(2021:

5.

705

)

(2022:

5.

705

)

(2023:

7.063

)

OCLC

1121105677















































Publisher:

Oscar Publishing Services

Servi

1.

G. Airò Farulla, M. Indaco, A. Legay, and T.

Margaria, “Model driven design of secure

properties for vision-based applications: A case

study,”

Proceedings

of

the

International

Conference on Security and Management (SAM).
The Steering Committee of The World Congress in
Computer Science, Computer Engineering and
Applied Computing (WorldComp), July 2016, in
press.

2.

Ali Josè Mashtizadeh, Andrea Bittau, Yifeng Frank
Huang, David Mazières, Stanford University, Ori
File System Web Site, http://ori.scs.stanford.edu/
[7] Rajesh Kumar Pal, Indian Institute of
Technology, Secure File System Thesis [8] T. Dierks,
E. Rescorla, Network Working Group, The
Transport Layer Security (TLS) Protocol Version 1.2,
https://tools.ietf.org/html/rfc5246

3.

M. Bollo, A. Carelli, S. Di Carlo, and P. Prinetto,

“Side

-

channel analysis of SEcube™ platform,” in

Proceedings of the 2017 IEEE East-West Design &
Test

Symposium

(EWDTS),

2017,

doi:

10.1109/EWDTS.2017.8110067.

4.

Г.Г. Гулямов, Н.Ю. Шарибаев, Определение
дискретного спектра плотности поверхностных
состояний моп

-

структур Al SiO2 Si, облученных

нейтронами,

Поверхность.

Рентгеновские,

синхротронные и нейтронные исследования №
9, Ст 13

-18 2012

5.

Г.Г. Гулямов, Н.Ю. Шарибаев, Определение
плотности поверхностных состояний границы
раздела полупроводник

-

диэлектрик в МДП

структуре, Физика и техника полупроводников,
Том 45, Номер 2, Страницы 178

-182. 2011

6.

Г.Г.

Гулямов,

Н.Ю.

Шарибаев,

Влияние

температуры на ширину запрещенной зоны
полупроводника

Физическая

инженерия

поверхности Номер 9, № 1, Страницы 40

-43. 2011

7.

OO Mamatkarimov, BH Kuchkarov, N Yu Sharibaev,
AA Abdulkhayev, Influence Of The Ultrasonic

Irradiation On Characteristic Of The Structures
Metal-Glass-Semiconductor, European Journal of

Molecular & Clinical Medicine, V 8, № 01, pp. 610

-

618, 2021

References

G. Airò Farulla, M. Indaco, A. Legay, and T. Margaria, “Model driven design of secure properties for vision-based applications: A case study,” Proceedings of the International Conference on Security and Management (SAM). The Steering Committee of The World Congress in Computer Science, Computer Engineering and Applied Computing (WorldComp), July 2016, in press.

Ali Josè Mashtizadeh, Andrea Bittau, Yifeng Frank Huang, David Mazières, Stanford University, Ori File System Web Site, http://ori.scs.stanford.edu/ [7] Rajesh Kumar Pal, Indian Institute of Technology, Secure File System Thesis [8] T. Dierks, E. Rescorla, Network Working Group, The Transport Layer Security (TLS) Protocol Version 1.2, https://tools.ietf.org/html/rfc5246

M. Bollo, A. Carelli, S. Di Carlo, and P. Prinetto, “Side-channel analysis of SEcube™ platform,” in Proceedings of the 2017 IEEE East-West Design & Test Symposium (EWDTS), 2017, doi: 10.1109/EWDTS.2017.8110067.

Г.Г. Гулямов, Н.Ю. Шарибаев, Определение дискретного спектра плотности поверхностных состояний моп-структур Al SiO2 Si, облученных нейтронами, Поверхность. Рентгеновские, синхротронные и нейтронные исследования № 9, Ст 13-18 2012

Г.Г. Гулямов, Н.Ю. Шарибаев, Определение плотности поверхностных состояний границы раздела полупроводник-диэлектрик в МДП структуре, Физика и техника полупроводников, Том 45, Номер 2, Страницы 178-182. 2011

Г.Г. Гулямов, Н.Ю. Шарибаев, Влияние температуры на ширину запрещенной зоны полупроводника Физическая инженерия поверхности Номер 9, № 1, Страницы 40-43. 2011

OO Mamatkarimov, BH Kuchkarov, N Yu Sharibaev, AA Abdulkhayev, Influence Of The Ultrasonic Irradiation On Characteristic Of The Structures Metal-Glass-Semiconductor, European Journal of Molecular & Clinical Medicine, V 8, № 01, pp. 610-618, 2021