Description
Certification Name: Certificate in 5G/6G Network Application Developer
Course Id: C5G6GNAD/Q0001.
Eligibility: Graduation or Equivalent.
Objective: The Certified 5G/6G Network Application Developer course is designed to equip professionals with the knowledge and skills to design, develop, and deploy applications and services over next-generation mobile networks. The course covers 5G and emerging 6G network architectures, network slicing, edge computing, IoT integration, latency optimization, security, and performance monitoring.
Duration: Three Month.
Β How to Enroll and Get Certified in Your Chosen Course:
Β Step 1:Β Choose the course you wish to get certified in.
Β Step 2:Β Click on theΒ βEnroll NowβΒ button.
Β Step 3:Β Proceed with the enrollment process.
Β Step 4:Β Enter your billing details and continue to course fee payment.
Β Step 5:Β You will be redirected to the payment gateway. Pay the course and exam fee using one of the following methods:
Debit/Credit Card, Wallet, Paytm, Net Banking, UPI, or Google Pay.
Β Step 6:Β After successful payment, you will receive your study material login ID and password via email withinΒ 48 hoursΒ of fee payment.
Β Step 7:Β Once you complete the course, take theΒ online examination.
Β Step 8:Β Upon passing the examination, you will receive:
β’ AΒ soft copyΒ (scanned) of your certificate via email within 7 days of examination.
β’ AΒ hard copyΒ (original with official seal and signature) sent to your address within 45 day of declaration of result.
Β Step 9:Β After certification, you will be offeredΒ job opportunitiesΒ aligned with your area of interest.
Online Examination Detail:
Duration- 60 minutes.
No. of Questions- 30. (Multiple Choice Questions).
Maximum Marks- 100, Passing Marks- 40%.
There is no negative marking in this module.
| Marking System: | ||||||
| S.No. | No. of Questions | Marks Each Question | Total Marks | |||
| 1 | 10 | 5 | 50 | |||
| 2 | 5 | 4 | 20 | |||
| 3 | 5 | 3 | 15 | |||
| 4 | 5 | 2 | 10 | |||
| 5 | 5 | 1 | 5 | |||
| 30 | 100 | |||||
| How Students will be Graded: | ||||||
| S.No. | Marks | Grade | ||||
| 1 | 91-100 | O (Outstanding) | ||||
| 2 | 81-90 | A+ (Excellent) | ||||
| 3 | 71-80 | A (Very Good) | ||||
| 4 | 61-70 | B (Good) | ||||
| 5 | 51-60 | C (Average) | ||||
| 6 | 40-50 | P (Pass) | ||||
| 7 | 0-40 | F (Fail) | ||||
Β Key Benefits of Certification-Β Earning a professional certification not only validates your skills but also enhances your employability. Here are the major benefits you gain:
Β Practical, Job-Ready Skills βΒ Our certifications are designed to equip you with real-world, hands-on skills that match current industry demands β helping you become employment-ready from day one.
Β Lifetime Validity βΒ Your certification is valid for a lifetime β no renewals or expirations. It serves as a permanent proof of your skills and training.
Β Lifetime Certificate Verification βΒ Employers and institutions can verify your certification anytime through a secure and reliable verification system β adding credibility to your qualifications.
Β Industry-Aligned Certification βAll certifications are developed in consultation with industry experts to ensure that what you learn is current, relevant, and aligned with market needs.
Β Preferred by Employers βΒ Candidates from ISO-certified institutes are often prioritized by recruiters due to their exposure to standardized, high-quality training.
Β Free Job Assistance Based on Your Career Interests βΒ Receive personalized job assistance and career guidance in your preferred domain, helping you land the right role faster.
Assessment Modules:
Moduleβ―1 β NextβGen Wireless Systems & Evolution: Evolution from 1Gβ4G to 5G and emerging 6G, Key useβcases and service categories of 5G (eMBB, URLLC, mMTC) and envisioned 6G, Standards and release overview (3GPP Releases 15β19 and beyond), Core enabling technologies (massive MIMO, mmWave/THz, reconfigurable intelligent surfaces), Architecture vision of 6G: sensing, AIβnative networks, integration of communications & computing, Business models, ecosystem, and deployment scenarios for 5G/6G
Moduleβ―2 β 5G/6G Network Architecture & Protocol Stack: Radio Access Network (RAN) and Core Network (5GC) architecture for 5G, ServiceβBased Architecture (SBA) and network functions (e.g., AMF, SMF, UPF) for 5G/6G, Protocol stacks and interfaces (e.g., N1/N2/N3, NGβRAN) for 5G/6G, Edge computing, cloudβnative and virtualization aspects (NFV/SDN) in 5G/6G networks, 6G architecture concepts (cellβfree networks, nonβterrestrial networks, mesh networks), Migration and interoperability between 5G and 6G architectures
Moduleβ―3 β Application & Service Development for 5G/6G: Designing networkβaware applications leveraging 5G/6G capabilities (low latency, high bandwidth, massive devices), API and service exposure for network applications (REST, networkβCAPIs, service functions), Network slicing and QoS enforcement for differentiated application services, Edge/nearβuser workflows (Multiβaccess Edge Computing β MEC, Local Data Networks), Application security, privacy and lifecycle management in 5G/6G environments, Integrating AI/ML and analytics into applications for networkβaware optimization and smart services
Moduleβ―4 β Connectivity, Edge & Device Ecosystem: Device types and categories in 5G/6G (RedCap, IoT/NTN devices, wearables), Linkβlevel technologies: mmWave/THz bands, beamforming, channel modelling and propagation challenges, Private/enterprise 5G/6G networks and campus/hybrid deployments, Edge computing design and deployment: application functions closer to user/devices, Connectivity protocols, transport and backhaul design for ultraβlowβlatency and highβreliability applications, Interoperability, multiβaccess, mobility management and roaming in 5G/6G ecosystems
Moduleβ―5 β Deployment, Operations & Application Lifecycle in 5G/6G: Application lifecycle on 5G/6G networks: design, deploy, monitor, update, retire, DevOps/DevApp practices for networkβaware application development and deployment, Observability, telemetry, analytics for network and service/application performance, Testing, validation and integration of applications in 5G/6G environments (testbeds, emulators, real networks), Performance tuning for nextβgen apps (latency, throughput, reliability, resource usage) in 5G/6G era, Cost, energy, sustainability, and resourceβmanagement considerations for longβlived applications
Moduleβ―6 β Emerging Trends, Innovation & FutureβProofing: Fusion of AI/ML with 6G: AIβnative networks, selfβorganising networks, predictive resource management, Emerging applications for 5G/6G: holographic communications, metaverse, digital twins, tactile internet, autonomous systems, Governance, regulation, security, privacy, ethical concerns in 5G/6G networks and applications, Future research and innovation domains: quantum communications, terahertz, zeroβtrust architecture, business strategy and ecosystem evolution
After successful completion of the Certificate in 5G/6G Network Application Developer course, graduates can pursue advanced careers at the intersection of next-generation telecom networks, software development, and emerging digital services. Below is a detailed overview of career options with roles, responsibilities, and salary ranges in India.
1. 5G/6G Network Application Developer
Role Overview:
Develops applications and services optimized for ultra-low latency, high bandwidth, and massive connectivity enabled by 5G and upcoming 6G networks.
Key Responsibilities:
-
Design and develop network-aware applications
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Optimize applications for low latency and high throughput
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Integrate network APIs and edge computing
-
Test applications on 5G/6G environments
Salary Range (India):
βΉ6 LPA β βΉ14 LPA
(Senior professionals may earn βΉ20 LPA+)
2. Telecom Software Engineer
Role Overview:
Builds software systems supporting telecom networks, service orchestration, and application enablement.
Key Responsibilities:
-
Develop telecom-grade applications
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Integrate network functions and APIs
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Support service provisioning and monitoring
-
Ensure high availability and scalability
Salary Range (India):
βΉ7 LPA β βΉ16 LPA
3. Network Application Engineer
Role Overview:
Focuses on developing applications that interact directly with network services such as QoS, slicing, and traffic optimization.
Key Responsibilities:
-
Build network control and analytics applications
-
Implement network slicing use cases
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Monitor application-network performance
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Optimize user experience
Salary Range (India):
βΉ6 LPA β βΉ13 LPA
4. Edge Computing Application Developer
Role Overview:
Develops applications deployed at the network edge to enable real-time processing and ultra-low latency services.
Key Responsibilities:
-
Design edge-based application architectures
-
Deploy applications on edge platforms
-
Optimize latency-sensitive workloads
-
Manage edge resources
Salary Range (India):
βΉ7 LPA β βΉ18 LPA
5. IoT & Smart Systems Application Developer
Role Overview:
Builds applications for massive IoT ecosystems enabled by 5G/6G connectivity.
Key Responsibilities:
-
Develop IoT network applications
-
Integrate sensors, devices, and platforms
-
Implement real-time data processing
-
Ensure secure and scalable connectivity
Salary Range (India):
βΉ6 LPA β βΉ15 LPA
6. AR/VR & Metaverse Network Application Developer
Role Overview:
Creates immersive applications that rely on high-speed, low-latency 5G/6G networks.
Key Responsibilities:
-
Develop network-optimized AR/VR applications
-
Integrate real-time streaming and interaction
-
Optimize latency and bandwidth usage
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Collaborate with UX and 3D teams
Salary Range (India):
βΉ8 LPA β βΉ20 LPA
7. Network API & Integration Specialist
Role Overview:
Develops and manages APIs that expose network capabilities to application developers.
Key Responsibilities:
-
Build and manage telecom APIs
-
Integrate third-party applications
-
Ensure API security and performance
-
Support developer ecosystems
Salary Range (India):
βΉ7 LPA β βΉ16 LPA
8. Telecom Cloud & Network Automation Developer
Role Overview:
Automates network services and application deployments using cloud-native technologies.
Key Responsibilities:
-
Develop automation scripts and services
-
Integrate CI/CD for network applications
-
Manage containerized network functions
-
Improve operational efficiency
Salary Range (India):
βΉ8 LPA β βΉ20 LPA
9. Network Analytics & AI Application Developer
Role Overview:
Develops analytics and AI-driven applications for network optimization and service intelligence.
Key Responsibilities:
-
Build real-time network analytics applications
-
Integrate AI/ML models
-
Predict network behavior and faults
-
Improve service quality
Salary Range (India):
βΉ9 LPA β βΉ22 LPA
10. 5G/6G Startup Entrepreneur / Consultant
Role Overview:
Builds innovative applications and solutions leveraging next-generation network capabilities.
Key Responsibilities:
-
Develop telecom and network-based products
-
Provide consulting and solution design
-
Work with enterprises and smart cities
-
Scale network-driven digital services
Earning Potential (India):
βΉ10 LPA β βΉ35 LPA+ (depending on innovation and scale)
Industries Hiring 5G/6G Network Application Developers
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Telecom operators and service providers
-
Network equipment and technology companies
-
IT services and system integrators
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Smart city and infrastructure projects
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Automotive, manufacturing, and Industry 4.0
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Healthcare, media, and immersive technologies
Career Growth Outlook
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Rapid expansion of 5G and future 6G ecosystems
-
Strong government and enterprise adoption
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High demand for low-latency, real-time applications
-
Excellent global and research-oriented opportunities
The Certificate in 5G/6G Network Application Developer prepares professionals for future-defining roles in next-generation connectivity, offering strong salary potential, innovation-driven careers, and long-term relevance in Indiaβs digital infrastructure growth.


















