If you are looking for quality education that will help you specialize in one of the fields with the most professional prospects, this is your best option” 

Advances in telecommunications are happening all the time, as this is one of the fastest evolving areas. It is therefore necessary to have IT experts who can adapt to these changes and have first-hand knowledge of the new tools and techniques that are emerging in this field. 

This Postgraduate diploma in Mobile Communication addresses the complete range of topics involved in this field. Its study has a clear advantage over other programs that focus on specific blocks, which prevents students from knowing the interrelation with other areas included in the multidisciplinary field of telecommunications. In addition, the teaching team of this educational program has made a careful selection of each of the topics of this program in order to offer students the most complete study opportunity possible and always linked to current events. 

This program is aimed at those interested in achieving a higher level of knowledge in Mobile Communication . The main objective of this Postgraduate diploma is for students to specialize their knowledge in simulated work environments and conditions in a rigorous and realistic manner so that they can later apply it in the real world. 

In addition, as it is a 100% online Postgraduate diploma, the student is not constrained by fixed timetables or the need to move to another physical location, but can access the contents at any time of the day, balancing their professional or personal life with their academic life. 

Do not miss the opportunity to study this Postgraduate diploma in Mobile Communication at TECH. It's the perfect opportunity to advance your career"

This Postgraduate diploma in Mobile Communication contains the most complete and up-to-date program on the market. The most important features include:

• Development of case studies presented by experts in Mobile communication
• The graphic, schematic, and practical contents with which they are created, provide scientific and practical information on the disciplines that are essential for professional practice
• Practical exercises where self-assessment can be used to improve learning
• Its special emphasis on innovative methodologies in communication Mobile
• Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments
• Content that is accessible from any fixed or portable device with an Internet connection

This Postgraduate diploma is the best investment you can make when choosing a refresher program to update your existing knowledge of Mobile Communication ”

The teaching staff includes professionals from the field of design, who bring their experience to this specialization program, as well as renowned specialists from leading societies and prestigious universities. 

The multimedia content, developed with the latest educational technology, will provide the professional with situated and contextual learning, i.e., a simulated environment that will provide immersive education programmed to learn in real situations. 

This program is designed around Problem-Based Learning, whereby the professional must try to solve the different professional practice situations that arise during the academic year. For this purpose, professionals will be assisted by an innovative interactive video system developed by renowned and experienced experts in Mobile Communication . 

This program comes with the best educational material, providing you with a contextual approach that will facilitate your learning"

This 100% online Postgraduate diploma will allow you to combine your studies with your professional work while expanding your knowledge in this field"

The structure of the contents has been designed by the best professionals in the from the engineering sector, with extensive experience and recognized prestige in the profession  

We have the most complete and up-to-date educational program on the market. We strive for excellence and for you to achieve it too"   

Module 1. Fundamentals of Mobile and Cell Network Communications 

1.1. Introduction to Mobile Communication

1.1.1. General Considerations
1.1.2. Composition and Classification
1.1.3. Frequency Bands
1.1.4. Channel and Modulation Classes  
1.1.5. Radio Coverage, Quality and Capacity
1.1.6. Evolution of Mobile Communications Systems 

1.2. Fundamentals of the Radio Interface, Radiating Elements and Basic Parameters

1.2.1. Physical Layer
1.2.2. Radio Interface Fundamentals
1.2.3. Noise in Mobile Systems
1.2.4. Multiple Access Techniques
1.2.5. Modulations Used in Mobile Communications
1.2.6. Wave Propagation Modes  

1.2.6.1. Surface Wave 
1.2.6.2. Ionosphere Wave 
1.2.6.3. Spatial Wave  
1.2.6.4. Ionospheric and Tropospheric Effects  

1.3. Wave Propagation through Mobile Channels

1.3.1. Basic Characteristics of Propagation through Mobile Channels
1.3.2. Evolution of Basic Propagation Loss Prediction Models
1.3.3. Methods Based on Ray Theory
1.3.4. Empirical Methods of Propagation Prediction
1.3.5. Propagation Models for Microcells
1.3.6. Multipath Channels
1.3.7. Characteristics of Multipath Channels

1.4.  SS7 Signaling System

1.4.1. Signaling Systems
1.4.2. SS7. SS7. Characteristics and Architecture
1.4.3. Message Transfer Part (MTP)  
1.4.4. Signaling Control Part (SCCP)  
1.4.5. User Parts (TUP, ISUP)  
1.4.6. Application Parts (MAP, TCAP, INAP, etc.)  

1.5. PMR and PAMR Systems. TETRA Systems

1.5.1. Basic Concepts of a PMR Network  
1.5.2. Structure of a PMR Network  
1.5.3. Backbone Systems. PAMR
1.5.4. TETRA Systems

1.6.   Classic Cellular Systems (FDMA/TDM)

1.6.1. Fundamentals of Cellular Systems
1.6.2. Classic Cellular Concept
1.6.3. Cellular Planning
1.6.4. Geometry of Cellular Networks
1.6.5. Cellular Division
1.6.6. Dimensioning of a Cellular System
1.6.7. Calculation of Interference in Cellular Systems
1.6.8. Coverage and Interference in Real Cellular Systems
1.6.9. Frequency Assignment in Cellular Systems
1.6.10. Architecture of Cellular Networks

1.7. GSM System; Global System for Mobile Communication

1.7.1. GSM Introduction. Origin and Evolution
1.7.2. GSM Telecommunication Services  
1.7.3. Architecture of GSM Networks 
1.7.4. GSM Radio Interface: Channels, TDMA Structure and Bursts
1.7.5. Modulation, Codification and Intertwined
1.7.6. Transmission Properties
1.7.7. Protocols

1.8. GPRS Service: General Packet Radio Service

1.8.1. GPRS Introduction. Origin and Evolution
1.8.2. General Features of the GPRS
1.8.3. Architecture of GPRS Networks
1.8.4. GPRS Radio Interface: Channels, TDMA Structure and Bursts
1.8.5. Transmission Properties
1.8.6. Protocols 

1.9. UMTS (W-CDMA) System

1.9.1. UMTS Origin. Characteristics of the 3rd Generation
1.9.2. Architecture of UMTS Networks
1.9.3. UMTS Radio Interface: Channels, Codes and Characteristics
1.9.4. Modulation, Codification and Intertwined
1.9.5. Transmission Properties
1.9.6. Protocols and Services
1.9.7. Capacity in UMTS
1.9.8. Planning and Radio Link Balance

1.10. Cellular Systems: Evolution of 3G, 4G and 5G 

1.10.1. Introduction
1.10.2. Evolution towards 3G 
1.10.3. Evolution towards 4G 
1.10.4. Evolution towards 5G 

Module 2: Mobile Communication Networks 

2.1. Introduction Mobile Communication Networks

2.1.1. Communication Networks
2.1.2. Communication Network Classification
2.1.3. The Radio-Electric Spectrum
2.1.4. Radio Telephone Systems
2.1.5. Cellular Technology
2.1.6. Evolution of Mobile Telephone Systems

2.2. Protocols and Architecture

2.2.1. Protocol Concept Review
2.2.2. Communication Architecture Concept Review
2.2.3. OSI Model Review
2.2.4. TCP/IP Protocol Architecture Review
2.2.5. Mobile Telephone Network Structure 

2.3. Mobile Communication Principles

2.3.1. Radiation and Antenna Types
2.3.2. Frequency Reuse
2.3.3. Signal Propagation
2.3.4. Itinerancy and Transfer
2.3.5. Multiple Access Techniques
2.3.6. Analog and Digital Systems
2.3.7. Portability

2.4. GSM Network Review: Technical Characteristics, Architecture and Interfaces

2.4.1. GSM Systems
2.4.2. GSM Technical Characteristics
2.4.3. GSM Network Architecture
2.4.4. GSM Channel Structure
2.4.5. GSM Interfaces 

2.5. GSM and GPRS Protocol Review

2.5.1. Introduction 
2.5.2. GSM Protocols
2.5.3. GSM Evolution
2.5.4. GPRS

2.6. UMTS System. Technical Characteristics, Architecture and HSPA

2.6.1. Introduction 
2.6.2. UMTS Systems
2.6.3. UMTS Technical Characteristics
2.6.4. UMTS Network Architecture
2.6.5. HSPA

2.7. UMTS System. Protocols, Interfaces and VoIP

2.7.1. Introduction 
2.7.2. UMTS Channel Structure
2.7.3. UMTS Protocols
2.7.4. UMTS Interfaces 
2.7.5. VoIP and IMS

2.8. VoIP: Traffic Models for IP Telephony

2.8.1. VoIP Introduction
2.8.2. Protocols
2.8.3. VoIP Elements
2.8.4. Real-Time VoIP Transport
2.8.5. Packaged Voice Traffic Models

2.9. LTE System. Technical Characteristics and Architecture. CS Fallback

2.9.1. LTE Systms
2.9.2. LTE Technical Characteristics
2.9.3. LTE Network Architecture
2.9.4. LTE Channel Structure
2.9.5. LTE Calls: VoLGA, CS FB and VoLTE

2.10. LTE Systems: Interfaces, Protocols and Services

2.10.1. Introduction 
2.10.2. LTE Interfaces
2.10.3. LTE Protocols
2.10.4. LTE Services

Module 3. Radio Networks and Services 

3.1. Basic Techniques in Radio Networks 

3.1.1. Introduction to Radio Networks
3.1.2. Fundamentals 
3.1.3. Multiple Access Techniques (MAT): Random Access (RA).  MF-TDMA, CDMA, OFDMA
3.1.4. Optimization of the Radio Link: Fundamentals of Link Control Techniques (LCT)   HARQ. MIMO 

3.2. Radioelectric Spectrum

3.2.1. Definition 
3.2.2. Nomenclature of Frequency Bands According to ITU-R  
3.2.3. Other Nomenclature for Frequency Bands 
3.2.4. Division of the Radio Spectrum 
3.2.5. Types of Electromagnetic Radiation 

3.3. Radio Communication Systems and Services

3.3.1. Conversion and Treatment of Signals: Analog and Digital Modulations
3.3.2. Digital Signal Transmission 
3.3.3. DAB, IBOC, DRM and DRM+ Digital Radio Systems 
3.3.4. Radiofrequency Communication Networks
3.3.5. Configuration of Fixed Installations and Mobile Units
3.3.6. Structure of a Fixed and Mobile Radiofrequency Transmitting Center
3.3.7. Installation of Radio and Television Signal Transmission Systems
3.3.8. Verification of the Operation of Emission and Transmission Systems 
3.3.9. Transmission Systems Maintenance 

3.4. Multicast and QoS End-to-End  

3.4.1. Introduction 
3.4.2. IP Multicast in Radio Networks
3.4.3. Delay/Disruption Tolerant Networking (DTN). 6 
3.4.4. E-to-E Service Quality: 

3.4.4.1. Impact of Radio Networks on E-to-E QoS
3.4.4.2. TCP in Radio Networks

3.5. Local WLAN Wireless Networks

3.5.1. Introduction to WLAN  

3.5.1.1. Principles of WLAN 

3.5.1.1.1. How They Work  
3.5.1.1.2. Frequency Band  
3.5.1.1.3. Security 

3.5.1.2. Applications 
3.5.1.3. Comparison between WLAN and Cabled LAN
3.5.1.4. Effects of Radiation on Health 
3.5.1.5. Standardization and Normalization of WLAN Technology 
3.5.1.6. Topology and Configurations  

3.5.1.6.1. Peer-to-Peer (Ad-Hoc) Configuration 
3.5.1.6.2. Configuration in Access Point Mode  
3.5.1.6.3. Other Configurations: Network Interconnections  

3.5.2. The IEEE 802.11 Standard– WI- FI  

3.5.2.1. Architecture 
3.5.2.2. IEEE 802.11 Layers  

3.5.2.2.1. Physical Layer 
3.5.2.2.2. The Link Layer (MAC) 

3.5.2.3. Basic Operation of a WLAN  3.5.2.4. Assigning the Radio Spectrum  
3.5.2.5. IEEE 802.11 Variants 

3.5.3. The HiperLAN Standard  

3.5.3.1. Reference Model 
3.5.3.2. HiperLAN/1 
3.5.3.3. HiperLAN/2 
3.5.3.4. Comparison of HiperLAN with 802.11a  

3.6. Wireless Metropolitan Area Networks (WMAN) and Wireless Wide Area Networks (WWAN)  

3.6.1. Introduction to WMAN. Features 
3.6.2. WiMAX. Characteristics and Diagram 
3.6.3. Wide Area Wireless Networks (WWAN) Introduction 
3.6.4. Satellite and Mobile Telephony Network

3.7. Personal WPAN Wireless Networks

3.7.1. Technology and Evolution
3.7.2. Bluetooth
3.7.3. Personal and Sensor Networks
3.7.4. Profiles and Applications  

3.8. Terrestrial Radio Access Networks

3.8.1. Evolution of Terrestrial Radio Access:  WiMAX, 3GPP
3.8.2. 4th Generation Accesses Introduction 
3.8.3. Radio Resources and Capacity
3.8.4. LTE Radio Carriers.  MAC, RLC and RRC  

3.9. Satellite Communications

3.9.1. Introduction 
3.9.2. History of Satellite Communications  
3.9.3. Structure of a Satellite Communications System 

3.9.3.1. Special Segment  
3.9.3.2. The Control Center 
3.9.3.3. The Ground Segment  

3.9.4. Types of Satellite  

3.9.4.1. By Purpose 
3.9.4.2. According to its Orbit  

3.9.5. Frequency Band 

3.10. Planning and Regulations of Radio Systems and Services

3.10.1. Terminology and Technical Characteristics  
3.10.2. Frequencies 
3.10.3. Coordination, Notification and Registration of Frequency Assignments and Plan Modifications  
3.10.4. Interferences 
3.10.5. Administrative Provisions  
3.10.6. Provisions Related to Services and Stations

This program will allow you to advance in your career comfortably"