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Writer's pictureK Supriya

Learn 5G Core Network Deployment in Private and Public Networks from Expert Trainers: Bikas Kumar Singh

Learn 5G Core Network Deployment in Private and Public Networks from Expert Trainers: Bikas Kumar Singh
Learn 5G Core Network Deployment in Private and Public Networks from Expert Trainers: Bikas Kumar Singh

5G Core Network Deployment is at the forefront of telecommunications, driving next-generation applications in private enterprise networks and public mobile operator networks. These networks cater to diverse use cases, from mission-critical industrial automation in private environments to widespread connectivity in public systems. Deploying 5G Core Networks requires technical expertise, hands-on experience, and a deep understanding of its architecture, protocols, and deployment strategies.


Bikas Kumar Singh, a renowned expert in 5G technology, offers unparalleled training in 5G Core Network Deployment for both private and public setups. With his vast experience and innovative teaching methods, he prepares telecom professionals to design, implement, and optimize 5G core networks for real-world applications.


Table of Contents

  1. Introduction to 5G Core Network Deployment

  2. Private vs. Public Networks: Key Differences

  3. Why 5G Core Network Deployment Skills Are Vital

  4. Meet the Expert: Bikas Kumar Singh

  5. Why Choose Bikas Kumar Singh for 5G Deployment Training

  6. Comprehensive Curriculum for 5G Core Network Deployment

  7. Private Network Deployment: Use Cases and Strategies

  8. Public Network Deployment: Challenges and Solutions

  9. Hands-On Training: Real-World Scenarios

  10. Tools and Techniques for Efficient Deployment

  11. Customized Learning Paths for Professionals

  12. Success Stories of Trainees

  13. Career Benefits of Learning 5G Deployment from Experts

  14. FAQs About the Training Program

  15. How to Enroll in the Training

  16. Conclusion: Your Path to 5G Core Deployment Expertise


1. Introduction to 5G Core Network Deployment

The 5G Core Network (5GC) is a foundational component of 5G architecture, enabling seamless, high-performance connectivity for diverse applications ranging from ultra-reliable low-latency communication (URLLC) to massive machine-type communication (mMTC). Deployment of the 5G core network involves configuring and integrating key network functions, ensuring compatibility with legacy systems, and optimizing the infrastructure for specific use cases.


What is 5G Core Network Deployment?

Deployment encompasses the entire process of designing, implementing, testing, and maintaining the 5G core infrastructure. This includes:

  • Planning Network Functions: Defining the roles and configurations of key components such as AMF, SMF, UPF, PCF, and NRF.

  • Integrating SBA (Service-Based Architecture): Leveraging cloud-native technologies like microservices, containers, and APIs to enable communication between network functions.

  • Managing Scalability: Ensuring the network can handle increasing traffic loads while maintaining performance.

  • Optimizing QoS: Configuring network slices to meet the unique requirements of applications like eMBB (enhanced mobile broadband) and URLLC.


Deployment Types

5G core networks are deployed in two primary environments:

  1. Private Networks: Customized networks designed for enterprises or industries.

  2. Public Networks: Large-scale networks deployed by telecom operators to serve the general public.


Each deployment type comes with its own set of technical challenges and opportunities, requiring professionals to possess specialized knowledge and skills.


2. Private vs. Public Networks: Key Differences

The deployment of private and public 5G networks serves different purposes and involves unique considerations. Understanding these distinctions is essential for professionals tasked with deploying and managing these networks.


2.1. Private Networks

Private 5G networks are built to meet the specific needs of enterprises, industries, or institutions. They are designed for applications that demand high reliability, low latency, and robust security.


Key Characteristics:

  • Dedicated Resources: Unlike public networks, private networks allocate exclusive resources to ensure predictable performance.

  • Localized Traffic Handling: Data is processed locally, reducing latency and enhancing security.

  • Customized Network Slices: Tailored to specific use cases, such as smart manufacturing, healthcare, or logistics.


Advantages:

  • Enhanced Security: Data remains within the enterprise’s infrastructure.

  • Control and Customization: Enterprises have full control over network configurations and policies.

  • High Performance: Optimized for mission-critical applications.


Use Cases:

  • Smart Factories: Enabling industrial automation and robotics.

  • Healthcare Systems: Supporting telemedicine and real-time patient monitoring.

  • Transportation: Facilitating autonomous vehicles and fleet management.


2.2. Public Networks

Public 5G networks are deployed by telecom operators to provide connectivity to a broad user base, including consumers, businesses, and IoT devices.


Key Characteristics:

  • Shared Infrastructure: Resources are allocated dynamically across multiple users and applications.

  • Wide Coverage: Designed to serve urban, suburban, and rural areas.

  • Broad Use Case Support: From consumer broadband to large-scale IoT deployments.


Advantages:

  • Scalability: Supports millions of devices with varying QoS requirements.

  • Cost Efficiency: Shared resources lower the cost of deployment and operation.

  • Interoperability: Ensures compatibility with a wide range of devices and applications.


Use Cases:

  • Consumer Broadband: High-speed internet access for homes and businesses.

  • Smart Cities: Connectivity for IoT devices like sensors and cameras.

  • Public Safety: Real-time communication for emergency response teams.


2.3. Technical and Strategic Differences

Feature

Private Networks

Public Networks

Architecture

Typically standalone (SA)

SA and non-standalone (NSA)

Traffic Handling

Local breakout for low latency

Centralized routing through core

Security

Enhanced, enterprise-controlled

Telecom-grade, multi-user security

Customization

High (tailored for specific needs)

Limited (standardized for scalability)


3. Why 5G Core Network Deployment Skills Are Vital

The ability to deploy and manage 5G core networks is a critical skill for professionals in today’s telecommunications landscape. With 5G adoption accelerating across industries, there is a growing demand for expertise in core network deployment, making it a highly sought-after specialization.


3.1. Growing Industry Demand

As industries and telecom operators transition to 5G, the need for skilled professionals to design and deploy 5G core networks is at an all-time high. Key drivers include:

  • Telecom Operators Expanding Coverage: Public networks are being rolled out globally to meet consumer and business demands.

  • Enterprise Adoption of Private Networks: Industries like healthcare, manufacturing, and logistics are deploying private networks to support mission-critical operations.


3.2. Complexity of 5G Core Deployment

Unlike its predecessors, the 5G core network operates on a cloud-native, service-based architecture, adding layers of complexity to deployment:

  • Multiple Network Functions (NFs): Ensuring seamless integration and operation of AMF, SMF, UPF, PCF, and NRF.

  • Virtualization and Containerization: Deploying network functions as containers or virtual machines (VMs) using platforms like Kubernetes.

  • Dynamic Scaling: Designing networks that can adapt to fluctuating traffic loads.


3.3. Support for Diverse Use Cases

5G enables a broad range of applications, each with unique network requirements:

  • eMBB: High-speed broadband for streaming and gaming.

  • URLLC: Ultra-reliable, low-latency communication for real-time applications like autonomous vehicles.

  • mMTC: Massive IoT connectivity for smart cities and agriculture.


Deploying 5G core networks requires expertise in configuring network slices and optimizing resources to support these diverse use cases.


3.4. Career Opportunities

Professionals trained in 5G core network deployment are in high demand for roles such as:

  • Network Engineers: Managing the deployment and operation of 5G networks.

  • Solution Architects: Designing scalable and reliable 5G architectures.

  • Telecom Consultants: Advising enterprises and operators on 5G strategies.


4. Meet the Expert: Bikas Kumar Singh

When it comes to learning 5G core network deployment, Bikas Kumar Singh is widely recognized as the go-to expert. With extensive experience in 5G architecture and deployment, he has trained hundreds of professionals who now lead key roles in the telecommunications industry.


4.1. Professional Expertise

Bikas Kumar Singh has played a pivotal role in the design and deployment of 5G networks for both private enterprises and public telecom operators. His expertise spans:

  • Network Architecture: Designing fault-tolerant and scalable 5G core networks.

  • Cloud-Native Deployment: Implementing virtualized and containerized network functions.

  • Interoperability: Ensuring seamless integration between 4G and 5G infrastructures.


4.2. Teaching Excellence

What sets Bikas Kumar Singh apart is his ability to simplify complex concepts and provide practical, hands-on training. His teaching approach includes:

  • Interactive Sessions: Encouraging active participation through discussions and Q&A.

  • Real-World Scenarios: Using case studies to demonstrate deployment strategies.

  • Hands-On Labs: Offering practical experience with tools and techniques used in 5G core deployment.


4.3. Global Recognition

Bikas Kumar Singh’s training programs are highly regarded worldwide, with alumni holding leadership positions in companies such as Ericsson, Nokia, Huawei, and global telecom operators. His trainees consistently praise his deep knowledge, engaging teaching style, and commitment to their success.


4.4. Passion for Empowering Professionals

Bikas Kumar Singh is dedicated to equipping telecom professionals with the skills and confidence to excel in their careers. His training programs are tailored to meet the unique needs of participants, ensuring they gain the knowledge and practical expertise required to succeed in 5G core network deployment.


5. Why Choose Bikas Kumar Singh for 5G Deployment Training

When it comes to mastering the intricacies of 5G core network deployment, Bikas Kumar Singh stands out as the most reliable and proficient trainer in the industry. His comprehensive understanding of 5G technologies, hands-on teaching approach, and proven track record make him the best choice for professionals seeking to excel in this domain.


5.1. Unparalleled Technical Knowledge

Bikas Kumar Singh’s expertise spans every aspect of 5G core network deployment:

  • Cloud-Native Technologies: Deep understanding of containerization, virtualization, and Kubernetes-based network functions.

  • Core Network Design: Proficiency in deploying AMF, SMF, UPF, NRF, and PCF with fault-tolerant configurations.

  • Multi-Vendor Integration: Experience in deploying and managing networks in diverse vendor environments.


5.2. Focus on Hands-On Learning

Unlike theoretical training programs, Bikas Kumar Singh emphasizes practical applications. His training includes:

  • Configuring 5G core network functions in real-world scenarios.

  • Troubleshooting deployment challenges, such as API failures or integration issues.

  • Optimizing network slices for specific applications like eMBB, URLLC, and mMTC.


5.3. Customized Training Modules

The training is tailored to meet the specific needs of participants, whether they are:

  • Network Engineers: Learning to configure and optimize core network elements.

  • IT Teams: Preparing for private 5G deployments.

  • Telecom Operators: Implementing large-scale public networks.


5.4. Proven Success Record

Many of Bikas Kumar Singh’s trainees now hold prominent roles in global telecom companies, overseeing critical 5G deployment projects. Their success underscores the effectiveness of his training.


5.5. Real-World Insights

Bikas Kumar Singh shares valuable insights from his experience in deploying both private and public 5G networks, giving participants a practical understanding of industry challenges and solutions.


6. Comprehensive Curriculum for 5G Core Network Deployment

The curriculum designed by Bikas Kumar Singh is both comprehensive and practical, covering every aspect of deploying 5G core networks. It equips participants with the knowledge and skills needed to succeed in real-world scenarios.


6.1. Foundational Knowledge

  • 5G Core Architecture: A detailed overview of core components such as AMF, SMF, UPF, NRF, and PCF.

  • Service-Based Architecture (SBA): Understanding how NFs communicate using RESTful APIs over HTTP/2.

  • Standalone (SA) and Non-Standalone (NSA) Modes: Key differences and deployment strategies.


6.2. Cloud-Native Deployment

  • Virtualization Technologies: Using OpenStack and VMware for deploying virtualized network functions (VNFs).

  • Containerization: Implementing network functions as containers using Kubernetes and Docker.

  • Scaling Solutions: Configuring dynamic scaling for traffic spikes.


6.3. Network Slicing

  • Designing slices for diverse use cases, such as IoT, enhanced mobile broadband (eMBB), and ultra-reliable low-latency communication (URLLC).

  • Configuring slices to ensure optimal resource allocation and QoS.


6.4. Integration with Legacy Systems

  • Ensuring interoperability with 4G LTE infrastructure.

  • Managing seamless handovers between 4G and 5G networks.


6.5. Troubleshooting and Optimization

  • Identifying and resolving deployment challenges, such as NF crashes or interface errors.

  • Optimizing performance for high-density and high-traffic scenarios.


7. Private Network Deployment: Use Cases and Strategies

Private 5G networks are rapidly gaining traction across industries due to their ability to provide dedicated, secure, and high-performance connectivity. Bikas Kumar Singh’s training equips professionals with the skills to design and deploy private networks tailored to specific enterprise needs.


7.1. Key Features of Private Networks

  • Dedicated Resources: Ensures predictable performance for critical applications.

  • Local Breakout: Processes data locally to reduce latency and enhance security.

  • Customizable Network Slices: Tailored to meet the unique requirements of industries like manufacturing and healthcare.


7.2. Strategic Use Cases

Private networks are deployed for a variety of use cases, including:

  • Smart Factories: Enabling industrial automation, robotics, and real-time monitoring.

  • Healthcare Systems: Supporting telemedicine, wearable devices, and real-time diagnostics.

  • Logistics and Warehousing: Powering autonomous vehicles, drones, and inventory tracking.


7.3. Deployment Strategies

Bikas Kumar Singh’s training covers the strategies required to deploy private networks effectively:

  • Infrastructure Design: Configuring network functions and on-premises hosting.

  • Traffic Routing: Implementing local breakout for latency-sensitive applications.

  • Security Enhancements: Deploying advanced authentication and encryption methods.


7.4. Challenges and Solutions

Participants learn to address common challenges in private network deployment:

  • Managing interference in high-density environments.

  • Ensuring scalability for expanding operations.

  • Integrating IoT devices with diverse connectivity requirements.


8. Public Network Deployment: Challenges and Solutions

Public 5G networks are deployed by telecom operators to provide broad connectivity across urban, suburban, and rural areas. These networks must balance scalability, cost-efficiency, and performance. Bikas Kumar Singh trains professionals to navigate the complexities of public network deployment.


8.1. Key Features of Public Networks

  • Wide Coverage: Designed to connect millions of users and devices.

  • Shared Infrastructure: Allocates resources dynamically across multiple applications.

  • Interoperability: Supports a wide range of devices and technologies.


8.2. Deployment Challenges

Deploying public networks involves addressing the following challenges:

  • Scalability: Managing traffic from millions of devices without compromising performance.

  • Interoperability: Ensuring seamless integration of equipment from multiple vendors.

  • QoS Management: Balancing resource allocation to meet diverse application requirements.

  • Coverage Optimization: Extending network coverage to underserved areas.


8.3. Solutions for Effective Deployment

Participants in Bikas Kumar Singh’s training learn to implement solutions for these challenges:

  • AI-Driven Traffic Management: Using AI tools to predict traffic patterns and optimize resource allocation.

  • Hybrid Architectures: Combining centralized and edge-based architectures for cost efficiency.

  • Advanced RF Planning: Designing coverage maps and optimizing signal propagation for urban and rural areas.


8.4. Seamless Integration with 4G

Public 5G networks often coexist with 4G LTE infrastructure. The training includes:

  • Managing NSA setups that leverage existing LTE networks.

  • Ensuring smooth handovers between 4G and 5G cells.


8.5. Use Cases for Public Networks

Public 5G networks cater to a broad range of applications, including:

  • Smart Cities: Powering IoT devices like traffic sensors and surveillance cameras.

  • Consumer Broadband: Delivering high-speed internet to homes and businesses.

  • Public Safety: Supporting real-time communication for emergency services.


9. Hands-On Training: Real-World Scenarios

Practical experience is the cornerstone of Bikas Kumar Singh’s training program, ensuring that participants are prepared to handle real-world challenges in 5G core network deployment. The hands-on training modules are designed to simulate real-world scenarios, allowing trainees to apply their theoretical knowledge in a controlled environment.


9.1. Simulated Deployment Scenarios

Participants work on simulated environments that mimic real-world 5G core network deployments. Key scenarios include:

  • Standalone (SA) Deployment: Configuring and deploying a 5G core network using only 5G architecture.

  • Non-Standalone (NSA) Deployment: Integrating 5G network functions with existing 4G LTE infrastructure to enable faster rollouts.

  • Private Network Configurations: Setting up a localized core network for specific enterprise use cases.


9.2. Troubleshooting Common Issues

The training provides exposure to real-world challenges and teaches participants to resolve them effectively:

  • NF Failures: Diagnosing and resolving crashes in network functions such as AMF or SMF.

  • Interface Errors: Addressing communication breakdowns between core network components or between the core and RAN.

  • Resource Allocation Issues: Identifying and resolving bottlenecks in dynamic resource allocation.


9.3. Optimization Exercises

Trainees are tasked with optimizing network performance in diverse scenarios, such as:

  • High-Density Deployments: Configuring networks to handle large-scale user connectivity in urban areas.

  • IoT Integration: Ensuring efficient performance for networks supporting thousands of IoT devices.

  • Low-Latency Applications: Fine-tuning configurations for applications requiring ultra-low latency, such as autonomous vehicles or remote surgeries.


9.4. Real-Time Monitoring and Updates

Participants gain experience in:

  • Monitoring live network traffic using tools like Prometheus, Wireshark, and Grafana.

  • Applying real-time updates and patches to ensure network resilience and security.

  • Managing alerts and alarms triggered by performance anomalies.


10. Tools and Techniques for Efficient Deployment

Effective deployment of 5G core networks requires expertise in industry-standard tools and techniques. Bikas Kumar Singh’s training provides participants with hands-on experience using these tools, ensuring they are well-equipped to handle real-world deployment challenges.


10.1. Core Network Tools

Participants are introduced to tools that are integral to 5G core network deployment:

  • Kubernetes: For orchestrating containerized network functions.

  • OpenStack: Managing virtualized network functions (VNFs) on cloud-based infrastructures.

  • Docker: Deploying lightweight containers for scalable network services.


10.2. Monitoring and Analytics Tools

Real-time monitoring is essential for maintaining 5G network performance. Trainees gain expertise in tools like:

  • Prometheus and Grafana: For tracking KPIs such as latency, throughput, and jitter, and visualizing performance metrics.

  • Wireshark: For deep packet inspection and troubleshooting protocol-level issues.

  • AI-Based Analytics Platforms: Leveraging machine learning to predict network faults and optimize traffic flow.


10.3. Automation and Orchestration

Automation streamlines the deployment and management of 5G networks. The training covers:

  • Ansible and Terraform: Automating the configuration and scaling of core network components.

  • CI/CD Pipelines: Implementing continuous integration and deployment to manage network updates seamlessly.

  • Zero-Touch Deployment: Using orchestration tools for fully automated deployments.


10.4. Security Tools

Ensuring the security of 5G core networks is a critical aspect of deployment. Trainees learn to use:

  • Encryption and Authentication Tools: Configuring IPsec and TLS for secure communication.

  • Intrusion Detection Systems (IDS): Monitoring and responding to unauthorized access attempts.


11. Customized Learning Paths for Professionals

Recognizing that different professionals have unique learning needs, Bikas Kumar Singh tailors his training modules to align with specific roles, industries, and experience levels. This personalized approach ensures that every participant gains relevant and actionable skills.


11.1. Role-Based Customization

The training is designed to cater to a variety of professional roles:

  • Network Engineers: Focusing on configuring, testing, and optimizing 5G core network functions.

  • Solution Architects: Emphasizing the design of scalable and fault-tolerant network architectures.

  • IT Teams: Preparing for private 5G deployments, including localized traffic routing and security.

  • Telecom Operators: Addressing the challenges of large-scale public network deployments, including multi-vendor integration and traffic optimization.


11.2. Industry-Specific Modules

Participants from different industries benefit from tailored content:

  • Manufacturing and Logistics: Strategies for deploying private networks in smart factories and warehouses.

  • Healthcare: Configuring 5G networks for telemedicine, real-time diagnostics, and wearable devices.

  • Smart Cities: Supporting IoT applications like traffic management, environmental monitoring, and public safety.


11.3. Experience-Based Learning Tracks

Training modules are customized for professionals at various experience levels:

  • Beginner Track: Covering foundational concepts of 5G core network architecture and basic deployment techniques.

  • Intermediate Track: Focusing on troubleshooting, optimization, and hybrid deployments.

  • Advanced Track: Exploring AI-driven orchestration, zero-touch deployment, and complex use cases like network slicing.


11.4. Flexible Learning Formats

To accommodate diverse schedules, the program is offered in multiple formats:

  • In-Person Workshops: For immersive, hands-on learning experiences.

  • Online Modules: Providing flexibility for remote participants.

  • Hybrid Programs: Combining virtual sessions with on-site practical labs.


12. Success Stories of Trainees

The impact of Bikas Kumar Singh’s training is evident in the success of his trainees, many of whom have gone on to lead critical 5G deployment projects in top-tier companies and organizations.


12.1. Case Studies of Achievements

  • Case Study 1: A telecom operator’s engineer successfully deployed a public 5G network in a densely populated urban area, overcoming challenges related to coverage optimization and multi-vendor integration.

  • Case Study 2: An IT team implemented a private 5G network for a multinational manufacturing company, enabling real-time monitoring and robotics automation.

  • Case Study 3: A security specialist integrated advanced encryption protocols into a 5G core deployment, ensuring compliance with stringent enterprise security requirements.


12.2. Alumni in Prestigious Roles

Graduates of the program have secured prominent roles in organizations such as:

  • Ericsson, Nokia, and Huawei: Leading network deployment and optimization projects.

  • Global Telecom Operators: Managing large-scale 5G rollouts and upgrades.

  • Enterprise IT Teams: Deploying private 5G networks for industries ranging from healthcare to logistics.


12.3. Testimonials from Trainees

  • “The training provided by Bikas Kumar Singh was instrumental in helping me transition from 4G operations to 5G deployment projects. The hands-on approach made all the difference.”

  • “I gained a deep understanding of private 5G network deployment and was able to apply it immediately in my role. The real-world scenarios were invaluable.”


12.4. Ongoing Support and Mentorship

Many trainees continue to benefit from ongoing mentorship, enabling them to stay updated with the latest advancements in 5G technology and apply cutting-edge solutions to their projects.


These detailed sections emphasize the practical, hands-on nature of Bikas Kumar Singh’s training, the tools and techniques covered, the customization available for different professionals, and the tangible success achieved by his trainees. This comprehensive approach ensures that participants are not only knowledgeable but also well-prepared to excel in the dynamic field of 5G core network deployment. 


13. Career Benefits of Learning 5G Deployment from Experts

Training in 5G core network deployment under Bikas Kumar Singh opens doors to a wide range of career opportunities and positions participants at the forefront of the telecommunications industry. As industries across the globe rapidly adopt 5G, the demand for professionals skilled in deploying and managing 5G networks continues to grow.


13.1. High Demand for 5G Expertise

The global rollout of 5G networks has created a massive demand for skilled professionals:

  • Telecom Operators: Require experts to deploy, optimize, and maintain public networks.

  • Enterprises: Seek professionals who can implement private 5G solutions tailored to their operational needs.

  • Government Projects: Look for skilled engineers to build and manage critical infrastructure like smart cities and defense networks.


13.2. Diverse Career Opportunities

Participants of Bikas Kumar Singh’s training program gain the expertise to take on diverse roles such as:

  • 5G Network Engineer: Responsible for configuring, deploying, and optimizing core network functions.

  • Network Architect: Designing scalable and robust 5G network solutions for private and public use cases.

  • Fault Management Specialist: Troubleshooting network issues and ensuring uptime.

  • Telecom Consultant: Advising businesses on implementing and managing 5G technology.


13.3. Global Career Potential

The skills gained in this training program are in demand worldwide. Alumni of the program have gone on to work on international projects, contributing to 5G deployments in regions including North America, Europe, and Asia-Pacific.


13.4. Future-Proof Your Career

The training equips participants with skills that extend beyond 5G:

  • Advanced Technologies: Learn cloud-native deployments, AI-driven automation, and edge computing.

  • Scalability to 6G: Be prepared for the next wave of telecommunications innovation by mastering foundational and advanced 5G concepts.


13.5. Industry Recognition

Certification from Bikas Kumar Singh’s program enhances your professional profile. Alumni are often recognized as subject matter experts and sought after for leadership roles in their respective organizations.


14. FAQs About the Training Program

To help prospective participants better understand the training program, here are detailed answers to frequently asked questions:


14.1. What are the prerequisites for joining the program?

The program is designed to accommodate participants with varying levels of experience:

  • Beginners: Foundational modules cover the basics of networking and 5G core architecture.

  • Intermediate Professionals: Modules tailored to individuals with prior experience in telecommunications.

  • Advanced Professionals: Specialized sessions for seasoned experts focusing on complex deployment scenarios.


14.2. How long is the training program?

The duration varies depending on the participant’s learning objectives:

  • Short-Term Courses: 2–4 weeks, focusing on specific aspects of 5G deployment, such as private network implementation.

  • Comprehensive Programs: 6–8 weeks, covering end-to-end deployment for both private and public networks.


14.3. What tools and technologies are covered in the training?

Participants gain hands-on experience with:

  • Kubernetes: Orchestrating containerized network functions.

  • Wireshark: For analyzing network traffic.

  • Prometheus and Grafana: Monitoring and visualizing network performance.

  • OpenStack: Managing virtualized network functions.


14.4. Is the program available online?

Yes, the program offers flexibility in learning formats:

  • Online Classes: For remote learners with access to virtual labs.

  • In-Person Workshops: For immersive hands-on training.

  • Hybrid Programs: Combining online theory with on-site practical sessions.


14.5. What certification is provided?

Participants receive an industry-recognized certification upon completing the program. This certification enhances their professional profile and credibility in the telecommunications industry.


14.6. Does the program provide placement assistance?

While the program doesn’t offer direct placement, many alumni have successfully secured roles in leading telecom companies due to the skills and certification gained from the training.


15. How to Enroll in the Training

Enrolling in Bikas Kumar Singh’s 5G core network deployment training program is straightforward. Here’s a step-by-step guide to get started:


15.1. Visit the Official Website


15.2. Choose Your Program

Select the program that best aligns with your career goals:

  • Intensive Courses: Ideal for professionals looking to quickly upgrade their skills.

  • Comprehensive Training: Suitable for those seeking in-depth expertise in 5G deployment.


15.3. Fill Out the Registration Form

Provide your details, including your professional background, experience level, and learning objectives, to ensure the program can be tailored to your needs.


15.4. Make Payment

Pay the course fee through secure payment options. Early registrations may qualify for discounts or promotional offers.


15.5. Receive Confirmation and Materials

Once registered, participants receive:

  • Confirmation emails with program details and schedules.

  • Access credentials for online learning platforms and virtual labs.

  • Pre-training materials to prepare for the sessions.


15.6. Attend Orientation

Participate in the orientation session to familiarize yourself with the training structure, tools, and expectations.


16. Conclusion: Your Path to 5G Core Deployment Expertise

Mastering 5G core network deployment is essential for professionals looking to excel in the ever-evolving telecommunications industry. Whether you aim to lead large-scale public deployments or design customized private networks for enterprises, the skills acquired through Bikas Kumar Singh’s training program will set you apart.


Why Choose This Training?

  • Expert Guidance: Learn from a globally recognized expert in 5G technology.

  • Comprehensive Curriculum: Gain in-depth knowledge of 5G core architecture, deployment strategies, and troubleshooting techniques.

  • Hands-On Experience: Work on real-world scenarios to build practical skills.

  • Career Advancement: Open doors to global opportunities and leadership roles in the telecommunications industry.


Take the next step in your career journey by enrolling in Bikas Kumar Singh’s training program. Equip yourself with the knowledge, skills, and confidence to deploy 5G core networks and shape the future of connectivity.


Joining Apeksha Telecom is your first step toward a thriving career in telecommunications. Here’s how you can enroll:

  1. Visit the Apeksha Telecom website.

  2. Fill out the registration form.

  3. Choose a payment plan (₹70K with installment options).


For more information:📧 Email: info@apekshatelecom.in 📞 Call: +91-8800669860


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