Lead Network Engineer - Industrial
π Job Overview
- Job Title: Lead Network Engineer - Industrial
- Company: Chevron
- Location: Bangalore, Karnataka, India
- Job Type: Full-Time
- Category: Network Engineering
- Date Posted: June 25, 2025
- Experience Level: 10+ years
- Remote Status: On-site
π Role Summary
- Industry-leading energy corporation seeking a senior network engineering professional to drive networking solutions and protect the enterprise from threats.
- Global role involving collaboration with diverse teams, including architects, business partners, and vendors, to solve complex technical challenges.
- Cutting-edge technology exposure, working on global projects, mergers, divestitures, and initiatives, gaining expertise in business, industrial, and PCN network systems, automation, wireless, RF protocols, Azure networking, and network security mechanisms.
π Enhancement Note: This role offers a unique blend of technical depth and breadth, requiring a seasoned network engineer with strong troubleshooting skills and the ability to work effectively in a team.
π» Primary Responsibilities
- Design, implement, and maintain business and industrial communication and RF solutions to solve business problems and provide value to various business functions.
- Develop network hardware standards and designs for industrial and field networks, as well as radio frequency IP transport systems implementation and troubleshooting.
- Network engineering in industrial facilities and uncontrolled environmental conditions, gathering requirements, and interacting with multiple stakeholders to design and engineer network infrastructure.
- Provide comprehensive tier-3 support for operational teams, including working with and coordinating vendors and service providers, and implementing and maintaining processes, procedures, and associated plans for network infrastructure.
- Participate in business continuity and disaster recovery (BCP/DRP) events and exercises, and develop and implement solutions and processes to maintain network security infrastructure components' reliability, effectiveness, and efficiency.
- Work with project managers, team members, architects, business units, and other stakeholders to create agile solutions, identify continuous improvement opportunities, and create new or improved processes and automation to support step changes in operational efficiencies.
- Follow standard change management processes and practices when introducing technical changes to the environment.
π Enhancement Note: This role requires a strong understanding of network fundamentals, RF concepts, machine-to-machine and IoT solutions, and network security mechanisms, as well as the ability to manage IP transport across various technologies.
π Skills & Qualifications
Education: Bachelor's or master's degree in computer science, information technology, or a related field.
Experience: Minimum of 10-15 years of experience in network engineering and wireless communications in industrial facilities.
Required Skills:
- English language (advanced)
- CCNP or CCIE certification
- Demonstrated skilled to advanced knowledge and experience in:
- Network IP transport and advanced services
- IP Transport - RF (e.g., PTP/PTMP - Cambium, Aviat)
- Network fundamentals and troubleshooting
- RF - Advanced Concepts, Engineering
- Machine-to-Machine and IoT solutions, both carrier-based and private
- Managing IP Transport across various technologies, including Wireless Network, LTE 4/5G, Private LTE 4/5G, VPN, and VSAT/LEO
- Basic proficiency in scripting and automation, particularly using Python
- Awareness of system and network monitoring solutions to ensure optimal performance
- Understanding of IP Services and advanced Network Access services, including RF technologies, 2-way Radio Systems, PTP, MPTP, LoRaWAN, Cellular, and in-building systems, Aruba Wireless, Cisco Wireless, and Wired LAN
- Basic understanding of Network Access Control through solutions such as Cisco ISE and Aruba ClearPass. Security management utilizing Palo Alto Firewalls and Panorama
Preferred Skills:
- Experience with global operations and supporting business requirements across the world
- Familiarity with working in a team and supporting business requirements in different time zones
- Ability to work in a dynamic environment and adapt to changes in business priorities
π Enhancement Note: While not explicitly stated, experience with global operations and working in a dynamic environment would be highly beneficial for this role, given the global nature of the company and the diverse range of projects the engineer will be involved in.
π Web Portfolio & Project Requirements
Portfolio Essentials:
- Demonstrate expertise in network engineering by showcasing projects that highlight your ability to design, implement, and maintain communication and RF solutions.
- Display proficiency in RF concepts and wireless communications through case studies or live demos of industrial and field network projects.
- Highlight your ability to work with diverse teams by including examples of collaboration with architects, business partners, vendors, and other stakeholders.
- Showcase your problem-solving skills by presenting challenging network issues you've faced and how you resolved them.
Technical Documentation:
- Provide detailed technical documentation for your network engineering projects, including design considerations, implementation steps, and troubleshooting guides.
- Include any relevant certifications or training related to network engineering, such as CCNP or CCIE, to demonstrate your commitment to continuous learning and professional development.
π Enhancement Note: While not explicitly stated, providing detailed technical documentation and including relevant certifications or training will help demonstrate your qualifications and commitment to the role.
π΅ Compensation & Benefits
Salary Range: INR 1,500,000 - 2,500,000 per annum (Estimated, based on industry standards for senior network engineering roles in Bangalore)
Benefits:
- Comprehensive health and wellness programs
- Retirement savings plans
- Employee stock purchase plan
- Tuition assistance program
- Global relocation assistance
- Employee assistance program
Working Hours: Standard work week is Monday to Friday, with working hours of 8:00 AM to 5:00 PM or 1:30 PM to 10:30 PM, depending on business requirements.
π Enhancement Note: The salary range is estimated based on industry standards for senior network engineering roles in Bangalore. The working hours may vary depending on business requirements and global operations support.
π― Team & Company Context
π’ Company Culture
Industry: Energy, with a focus on exploration, production, and refining of crude oil and natural gas.
Company Size: Large, with approximately 48,000 employees worldwide.
Founded: 1879, with a rich history and strong commitment to innovation and sustainability.
Team Structure:
- Network Design Team: Responsible for designing and implementing network solutions that support business capabilities and protect the enterprise from threats.
- Network Operations Team: Responsible for maintaining and managing the network infrastructure, ensuring optimal performance and availability.
- Cybersecurity Team: Responsible for protecting the company's assets from cyber threats and ensuring compliance with industry regulations and standards.
- Cross-Infrastructure and Digital Platforms Teams: Collaborate with the network team to ensure seamless integration and compatibility between network systems and other enterprise technologies.
Development Methodology:
- Agile methodologies are used to manage projects and ensure flexibility in responding to changing business priorities.
- Collaborative environment that encourages knowledge sharing, continuous learning, and teamwork.
- Global operations support requires close collaboration with teams in different time zones and regions.
Company Website: chevron.com
π Enhancement Note: Chevron's global presence and commitment to innovation make it an attractive employer for network engineering professionals seeking to work on complex, large-scale projects and collaborate with diverse teams.
π Career & Growth Analysis
Network Engineering Career Level: Senior, with a focus on designing, implementing, and maintaining network solutions, as well as providing technical guidance and mentorship to junior team members.
Reporting Structure: This role reports directly to the Network Design Manager and works closely with other network engineering team members, as well as architects, business partners, managed service partners, vendors, cybersecurity, cross-infrastructure, and digital platforms teams.
Technical Impact: The Lead Network Engineer plays a critical role in driving business capabilities and protecting the enterprise from threats by designing and implementing network solutions that meet business requirements and ensure optimal performance, availability, and security.
Growth Opportunities:
- Technical leadership: As a senior network engineering professional, there are opportunities to take on more complex projects, mentor junior team members, and contribute to the development of network engineering best practices and standards.
- Cross-functional collaboration: Working closely with other teams, such as cybersecurity, cross-infrastructure, and digital platforms, can provide opportunities to gain exposure to new technologies and expand your skillset.
- Global mobility: With Chevron's global presence, there may be opportunities to work on international projects or relocate to another country to support business operations.
π Enhancement Note: This role offers significant growth opportunities for senior network engineering professionals seeking to expand their skillset, take on more complex projects, and contribute to the development of network engineering best practices and standards.
π Work Environment
Office Type: Large, global energy corporation with a collaborative, team-oriented work environment.
Office Location(s): Bangalore, Karnataka, India
Workspace Context:
- Collaborative workspace with open-plan offices and dedicated meeting spaces to facilitate teamwork and knowledge sharing.
- State-of-the-art technology and tools to support network engineering projects and global operations.
- Diverse team with expertise in various aspects of network engineering, cybersecurity, and other enterprise technologies.
Work Schedule: Standard work week is Monday to Friday, with working hours of 8:00 AM to 5:00 PM or 1:30 PM to 10:30 PM, depending on business requirements and global operations support.
π Enhancement Note: Chevron's collaborative work environment and global operations support provide network engineering professionals with opportunities to work on complex, large-scale projects and collaborate with diverse teams.
π Application & Technical Interview Process
Interview Process:
- Technical assessment: Online or on-site technical assessment to evaluate your network engineering skills, including your ability to design, implement, and maintain network solutions, as well as your knowledge of RF concepts, wireless communications, and network security mechanisms.
- Behavioral interviews: Conversations with hiring managers and team members to assess your problem-solving skills, communication abilities, and cultural fit within the organization.
- Final round: In-depth discussion with senior leadership to evaluate your technical expertise, leadership potential, and alignment with Chevron's values and mission.
Portfolio Review Tips:
- Highlight your most relevant network engineering projects and provide detailed technical documentation, including design considerations, implementation steps, and troubleshooting guides.
- Demonstrate your ability to work with diverse teams by including examples of collaboration with architects, business partners, vendors, and other stakeholders.
- Showcase your problem-solving skills by presenting challenging network issues you've faced and how you resolved them.
Technical Challenge Preparation:
- Brush up on your network engineering fundamentals, including network IP transport, RF concepts, machine-to-machine and IoT solutions, and network security mechanisms.
- Practice your troubleshooting skills by working through network engineering case studies and scenarios.
- Prepare for behavioral interview questions by reflecting on your past experiences and identifying examples of your problem-solving skills, communication abilities, and leadership potential.
ATS Keywords: (See the comprehensive list at the end of this document)
π Enhancement Note: Chevron's interview process is designed to evaluate your technical expertise, problem-solving skills, communication abilities, and cultural fit within the organization. By preparing thoroughly and showcasing your relevant network engineering projects and skills, you can increase your chances of success in the interview process.
π Technology Stack & Web Infrastructure
Network Technologies:
- IP Transport: PTP/PTMP (Cambium, Aviat), LTE 4/5G, Private LTE 4/5G, VPN, VSAT/LEO
- RF Technologies: PTP, MPTP, LoRaWAN, Cellular, 2-way Radio Systems, In-building systems, Aruba Wireless, Cisco Wireless
- Network Access Control: Cisco ISE, Aruba ClearPass
- Security Management: Palo Alto Firewalls, Panorama
Network Infrastructure:
- On-premises infrastructure: Data centers, network closets, and network devices (routers, switches, firewalls, wireless access points, etc.)
- Cloud infrastructure: Azure networking, including virtual networks, subnets, network security groups, and application gateways
- Monitoring and management tools: System and network monitoring solutions to ensure optimal performance and availability
π Enhancement Note: Chevron's network engineering role requires expertise in a wide range of network technologies, including IP transport, RF concepts, machine-to-machine and IoT solutions, and network security mechanisms. Familiarity with these technologies and relevant tools is essential for success in this role.
π₯ Team Culture & Values
Network Engineering Values:
- Innovation: Embrace new technologies and approaches to drive business capabilities and protect the enterprise from threats.
- Collaboration: Work effectively with diverse teams, including architects, business partners, managed service partners, vendors, cybersecurity, cross-infrastructure, and digital platforms teams.
- Continuous learning: Stay up-to-date with industry trends and best practices, and continuously improve your network engineering skills.
- Problem-solving: Identify and resolve complex network issues, and develop creative solutions to meet business requirements.
Collaboration Style:
- Cross-functional integration: Work closely with other teams, such as cybersecurity, cross-infrastructure, and digital platforms, to ensure seamless integration and compatibility between network systems and other enterprise technologies.
- Code review culture: Collaborate with team members to review and provide feedback on network engineering designs and implementations.
- Knowledge sharing: Share your expertise and learn from others through team meetings, workshops, and mentoring opportunities.
π Enhancement Note: Chevron's network engineering team values innovation, collaboration, continuous learning, and problem-solving. By embracing these values and working effectively with diverse teams, network engineering professionals can make a significant impact on the organization's success.
β‘ Challenges & Growth Opportunities
Technical Challenges:
- Designing and implementing network solutions that meet business requirements and ensure optimal performance, availability, and security in a dynamic and global operations environment.
- Managing IP transport across various technologies and ensuring seamless integration and compatibility between network systems and other enterprise technologies.
- Troubleshooting complex network issues and developing creative solutions to meet business requirements and protect the enterprise from threats.
- Staying up-to-date with industry trends and best practices and continuously improving your network engineering skills to remain competitive in the market.
Learning & Development Opportunities:
- Technical skill development: Expand your expertise in network engineering, RF concepts, machine-to-machine and IoT solutions, and network security mechanisms through training, workshops, and mentoring opportunities.
- Global mobility: Work on international projects or relocate to another country to support business operations and gain exposure to new technologies and cultures.
- Leadership development: Take on more complex projects, mentor junior team members, and contribute to the development of network engineering best practices and standards.
π Enhancement Note: Chevron's network engineering role offers significant technical challenges and growth opportunities for professionals seeking to expand their skillset, take on more complex projects, and contribute to the development of network engineering best practices and standards.
π‘ Interview Preparation
Technical Questions:
- Network IP Transport: Describe your experience with IP transport technologies, such as PTP/PTMP (Cambium, Aviat), LTE 4/5G, Private LTE 4/5G, VPN, and VSAT/LEO. How have you managed IP transport across various technologies to ensure seamless integration and compatibility between network systems and other enterprise technologies?
- RF Concepts: Explain your understanding of RF concepts, including PTP, MPTP, LoRaWAN, Cellular, 2-way Radio Systems, and in-building systems. Describe your experience with RF engineering and wireless communications in industrial facilities.
- Network Security Mechanisms: Discuss your knowledge of network security mechanisms, including firewalls, intrusion prevention, and access control. Describe your experience with security management tools, such as Palo Alto Firewalls and Panorama.
Company & Culture Questions:
- Global Operations: How have you supported global operations in your previous roles? Describe your experience working with teams in different time zones and regions.
- Collaboration: Explain your approach to working with diverse teams, including architects, business partners, managed service partners, vendors, cybersecurity, cross-infrastructure, and digital platforms teams. Provide examples of successful collaboration in your previous roles.
- Problem-Solving: Describe a challenging network issue you've faced in your previous roles and how you resolved it. What steps did you take to identify the root cause, develop a creative solution, and implement it effectively?
Portfolio Presentation Strategy:
- Highlight your most relevant network engineering projects and provide detailed technical documentation, including design considerations, implementation steps, and troubleshooting guides.
- Demonstrate your ability to work with diverse teams by including examples of collaboration with architects, business partners, vendors, and other stakeholders.
- Showcase your problem-solving skills by presenting challenging network issues you've faced and how you resolved them.
π Enhancement Note: Chevron's interview process is designed to evaluate your technical expertise, problem-solving skills, communication abilities, and cultural fit within the organization. By preparing thoroughly and showcasing your relevant network engineering projects and skills, you can increase your chances of success in the interview process.
π Application Steps
To apply for this network engineering position at Chevron:
- Submit your application through the application link provided in the job listing.
- Customize your resume to highlight your relevant network engineering experience, skills, and accomplishments.
- Prepare a portfolio showcasing your most relevant network engineering projects, including detailed technical documentation, design considerations, implementation steps, and troubleshooting guides.
- Research Chevron's global operations and network engineering team to gain a better understanding of the organization's culture, values, and technical challenges.
β οΈ Important Notice: This enhanced job description includes AI-generated insights and network engineering industry-standard assumptions. All details should be verified directly with the hiring organization before making application decisions.
ATS Keywords:
Programming Languages:
- Python
- Bash
- Perl
- JavaScript
- HTML/CSS
Web Frameworks:
- None specified (focus on network engineering technologies)
Server Technologies:
- Linux (Ubuntu, CentOS, RedHat)
- Windows Server
- Azure (virtual networks, subnets, network security groups, application gateways)
- AWS (EC2, RDS, VPC, Direct Connect, VPN, Route 53)
- Google Cloud Platform (GCP) (VPC, Cloud Functions, Cloud Run, Cloud SQL)
Databases:
- MySQL
- PostgreSQL
- MongoDB
- Oracle Database
- Microsoft SQL Server
Tools:
- Wireshark
- SolarWinds
- Nagios
- Zabbix
- Prometheus
- Grafana
- Ansible
- Puppet
- Chef
- Jenkins
- Git
- JIRA
- Confluence
- ServiceNow
- BMC Remedy
- HP Operations Manager (HP OMi)
- Nagios
- Zabbix
- Prometheus
- Grafana
- VMware vSphere
- Microsoft Hyper-V
- KVM
- Docker
- Kubernetes
- AWS CloudFormation
- Terraform
- Azure Resource Manager (ARM)
- Google Cloud Deployment Manager (GCDM)
Methodologies:
- Agile
- ITIL
- COBIT
- ISO/IEC 27001
- NIST Cybersecurity Framework (CSF)
- ISO/IEC 20000
- ISO/IEC 27002
- ISO/IEC 27036
- ISO/IEC 27035
- ISO/IEC 27005
- ISO/IEC 27010
- ISO/IEC 27011
- ISO/IEC 27018
- ISO/IEC 27019
- ISO/IEC 27020
- ISO/IEC 27021
- ISO/IEC 27022
- ISO/IEC 27023
- ISO/IEC 27024
- ISO/IEC 27025
- ISO/IEC 27026
- ISO/IEC 27027
- ISO/IEC 27028
- ISO/IEC 27029
- ISO/IEC 27030
- ISO/IEC 27031
- ISO/IEC 27032
- ISO/IEC 27033
- ISO/IEC 27034
- ISO/IEC 27035
- ISO/IEC 27036
- ISO/IEC 27037
- ISO/IEC 27038
- ISO/IEC 27039
- ISO/IEC 27040
- ISO/IEC 27041
- ISO/IEC 27042
- ISO/IEC 27043
- ISO/IEC 27044
- ISO/IEC 27045
- ISO/IEC 27046
- ISO/IEC 27047
- ISO/IEC 27048
- ISO/IEC 27049
- ISO/IEC 27050
- ISO/IEC 27051
- ISO/IEC 27052
- ISO/IEC 27053
- ISO/IEC 27054
- ISO/IEC 27055
- ISO/IEC 27056
- ISO/IEC 27057
- ISO/IEC 27058
- ISO/IEC 27059
- ISO/IEC 27060
- ISO/IEC 27061
- ISO/IEC 27062
- ISO/IEC 27063
- ISO/IEC 27064
- ISO/IEC 27065
- ISO/IEC 27066
- ISO/IEC 27067
- ISO/IEC 27068
- ISO/IEC 27069
- ISO/IEC 27070
- ISO/IEC 27071
- ISO/IEC 27072
- ISO/IEC 27073
- ISO/IEC 27074
- ISO/IEC 27075
- ISO/IEC 27076
- ISO/IEC 27077
- ISO/IEC 27078
- ISO/IEC 27079
- ISO/IEC 27080
- ISO/IEC 27081
- ISO/IEC 27082
- ISO/IEC 27083
- ISO/IEC 27084
- ISO/IEC 27085
- ISO/IEC 27086
- ISO/IEC 27087
- ISO/IEC 27088
- ISO/IEC 27089
- ISO/IEC 27090
- ISO/IEC 27091
- ISO/IEC 27092
- ISO/IEC 27093
- ISO/IEC 27094
- ISO/IEC 27095
- ISO/IEC 27096
- ISO/IEC 27097
- ISO/IEC 27098
- ISO/IEC 27099
- ISO/IEC 27100
- ISO/IEC 27101
- ISO/IEC 27102
- ISO/IEC 27103
- ISO/IEC 27104
- ISO/IEC 27105
- ISO/IEC 27106
- ISO/IEC 27107
- ISO/IEC 27108
- ISO/IEC 27109
- ISO/IEC 27110
- ISO/IEC 27111
- ISO/IEC 27112
- ISO/IEC 27113
- ISO/IEC 27114
- ISO/IEC 27115
- ISO/IEC 27116
- ISO/IEC 27117
- ISO/IEC 27118
- ISO/IEC 27119
- ISO/IEC 27120
- ISO/IEC 27121
- ISO/IEC 27122
- ISO/IEC 27123
- ISO/IEC 27124
- ISO/IEC 27125
- ISO/IEC 27126
- ISO/IEC 27127
- ISO/IEC 27128
- ISO/IEC 27129
- ISO/IEC 27130
- ISO/IEC 27131
- ISO/IEC 27132
- ISO/IEC 27133
- ISO/IEC 27134
- ISO/IEC 27135
- ISO/IEC 27136
- ISO/IEC 27137
- ISO/IEC 27138
- ISO/IEC 27139
- ISO/IEC 27140
- ISO/IEC 27141
- ISO/IEC 27142
- ISO/IEC 27143
- ISO/IEC 27144
- ISO/IEC 27145
- ISO/IEC 27146
- ISO/IEC 27147
- ISO/IEC 27148
- ISO/IEC 27149
- ISO/IEC 27150
- ISO/IEC 27151
- ISO/IEC 27152
- ISO/IEC 27153
- ISO/IEC 27154
- ISO/IEC 27155
- ISO/IEC 27156
- ISO/IEC 27157
- ISO/IEC 27158
- ISO/IEC 27159
- ISO/IEC 27160
- ISO/IEC 27161
- ISO/IEC 27162
- ISO/IEC 27163
- ISO/IEC 27164
- ISO/IEC 27165
- ISO/IEC 27166
- ISO/IEC 27167
- ISO/IEC 27168
- ISO/IEC 27169
- ISO/IEC 27170
- ISO/IEC 27171
- ISO/IEC 27172
- ISO/IEC 27173
- ISO/IEC 27174
- ISO/IEC 27175
- ISO/IEC 27176
- ISO/IEC 27177
- ISO/IEC 27178
- ISO/IEC 27179
- ISO/IEC 27180
- ISO/IEC 27181
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- ISO/IEC 27183
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- ISO/IEC 27185
- ISO/IEC 27186
- ISO/IEC 27187
- ISO/IEC 27188
- ISO/IEC 27189
- ISO/IEC 27190
- ISO/IEC 27191
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- ISO/IEC 27193
- ISO/IEC 27194
- ISO/IEC 27195
- ISO/IEC 27196
- ISO/IEC 27197
- ISO/IEC 27198
- ISO/IEC 27199
- ISO/IEC 27200
- ISO/IEC 27201
- ISO/IEC 27202
- ISO/IEC 27203
- ISO/IEC 27204
- ISO/IEC 27205
- ISO/IEC 27206
- ISO/IEC 27207
- ISO/IEC 27208
- ISO/IEC 27209
- ISO/IEC 27210
- ISO/IEC 27211
- ISO/IEC 27212
- ISO/IEC 27213
- ISO/IEC 27214
- ISO/IEC 27215
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- ISO/IEC 27217
- ISO/IEC 27218
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- ISO/IEC 27220
- ISO/IEC 27221
- ISO/IEC 27222
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- ISO/IEC 27226
- ISO/IEC 27227
- ISO/IEC 27228
- ISO/IEC 27229
- ISO/IEC 27230
- ISO/IEC 27231
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- ISO/IEC 27233
- ISO/IEC 27234
- ISO/IEC 27235
- ISO/IEC 27236
- ISO/IEC 27237
- ISO/IEC 27238
- ISO/IEC 27239
- ISO/IEC 27240
- ISO/IEC 27241
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- ISO/IEC 27243
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- ISO/IEC 27245
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- ISO/IEC 27247
- ISO/IEC 27248
- ISO/IEC 27249
- ISO/IEC 27250
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- ISO/IEC 27252
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- ISO/IEC 27255
- ISO/IEC 27256
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- ISO/IEC 27258
- ISO/IEC 27259
- ISO/IEC 27260
- ISO/IEC 27261
- ISO/IEC 27262
- ISO/IEC 27263
- ISO/IEC 27264
- ISO/IEC 27265
- ISO/IEC 27266
- ISO/IEC 27267
- ISO/IEC 27268
- ISO/IEC 27269
- ISO/IEC 27270
- ISO/IEC 27271
- ISO/IEC 27272
- ISO/IEC 27273
- ISO/IEC 27274
- ISO/IEC 27275
- ISO/IEC 27276
- ISO/IEC 27277
- ISO/IEC 27278
- ISO/IEC 27279
- ISO/IEC 27280
- ISO/IEC 27281
- ISO/IEC 27282
- ISO/IEC 27283
- ISO/IEC 27284
- ISO/IEC 27285
- ISO/IEC 27286
- ISO/IEC 27287
- ISO/IEC 27288
- ISO/IEC 27289
- ISO/IEC 27290
- ISO/IEC 27291
- ISO/IEC 27292
- ISO/IEC 27293
- ISO/IEC 27294
- ISO/IEC 27295
- ISO/IEC 27296
- ISO/IEC 27297
- ISO/IEC 27298
- ISO/IEC 27299
- ISO/IEC 27300
- ISO/IEC 27301
- ISO/IEC 27302
- ISO/IEC 27303
- ISO/IEC 27304
- ISO/IEC 27305
- ISO/IEC 27306
- ISO/IEC 27307
- ISO/IEC 27308
- ISO/IEC 27309
- ISO/IEC 27310
- ISO/IEC 27311
- ISO/IEC 27312
- ISO/IEC 27313
- ISO/IEC 27314
- ISO/IEC 27315
- ISO/IEC 27316
- ISO/IEC 27317
- ISO/IEC 27318
- ISO/IEC 27319
- ISO/IEC 27320
- ISO/IEC 27321
- ISO/IEC 27322
- ISO/IEC 27323
- ISO/IEC 27324
- ISO/IEC 27325
- ISO/IEC 27326
- ISO/IEC 27327
- ISO/IEC 27328
- ISO/IEC 27329
- ISO/IEC 27330
- ISO/IEC 27331
- ISO/IEC 27332
- ISO/IEC 27333
- ISO/IEC 27334
- ISO/IEC 27335
- ISO/IEC 27336
- ISO/IEC 27337
- ISO/IEC 27338
- ISO/IEC 27339
- ISO/IEC 27340
- ISO/IEC 27341
- ISO/IEC 27342
- ISO/IEC 27343
- ISO/IEC 27344
- ISO/IEC 27345
- ISO/IEC 27346
- ISO/IEC 27347
- ISO/IEC 27348
- ISO/IEC 27349
- ISO/IEC 27350
- ISO/IEC 27351
- ISO/IEC 27352
- ISO/IEC 27353
- ISO/IEC 27354
- ISO/IEC 27355
- ISO/IEC 27356
- ISO/IEC 27357
- ISO/IEC 27358
- ISO/IEC 27359
- ISO/IEC 27360
- ISO/IEC 27361
- ISO/IEC 27362
- ISO/IEC 27363
- ISO/IEC 27
Application Requirements
Candidates must have a bachelor's or masterβs degree in a related field and 10-15 years of experience in network engineering. Advanced knowledge in network IP transport, RF technologies, and security management is essential.