Description

Cryptography is essential for enterprise cybersecurity and for technologies such as Blockchain. That's why this program will prepare you intensively to progress professionally in this important IT field"

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The growing importance of the cybersecurity field has led to a huge boost in cryptography. This discipline makes it possible to encode, cipher and encrypt all types of data, whether it be sensitive company information, transactions or access codes. Thus, it is essential in today's digital world. In addition, the emergence of other areas such as Blockchain or artificial intelligence have given it an extra boost, making it a sector with a high demand for specialized professionals.

This postgraduate certificate in Advanced Cryptography offers, therefore, the possibility of delving deeper into this area, preparing the computer scientist to respond to all present and future challenges in this area. Throughout this program the professional will delve into issues such as steganography and stegoanalysis, the combination of block ciphers, asymmetric cryptography or quantum algorithms.

Based on a 100% online program, this postgraduate certificate will allow the computer scientist to advance professionally thanks to its up to date contents and its teaching staff, composed of cryptography specialists who are up to date with the latest developments in this area and its new practical applications.

Learn about the most innovative applications of cryptography thanks to this postgraduate certificate, which is taught through a 100% online methodology” 

This postgraduate certificate in Advanced Cryptography contains the most complete and up to date educational program on the market. Its most notable features are: 

  • The development of case studies presented by IT and cybersecurity experts
  • 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 the self assessment process can be carried out to improve learning
  • Its special emphasis on innovative methodologies
  • Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection work
  • Content that is accessible from any fixed or portable device with an Internet connection

You will be able to learn more about the best cryptographic techniques using numerous multimedia resources: practical activities, multimedia summaries, master classes, etc” 

The program includes, in its teaching staff, professionals from the sector who bring to this training the experience of their work, in addition to recognized specialists from prestigious reference societies and 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 training programmed to train 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 throughout the program. For this purpose, the student will be assisted by an innovative interactive video system created by renowned and experienced experts.

Technology companies need experts in Advanced Cryptography and this postgraduate certificate will prepare you to improve professionally" 

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TECH learning system will allow you to continue your professional work without interruptions and without rigid schedules"

Objectives

This postgraduate certificate in Advanced Cryptography has as its main objective to teach the professional the best cryptographic methods, as well as the new applications of this important discipline. Thus, you will become a computer scientist specialized in cryptography who can solve different problems, whether in the security of access codes to a given system or in emerging technologies such as Blockchain. This will prepare you to work in different fields, broadening your job prospects.

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Achieve all your professional goals by specializing in Advanced Cryptography thanks to this Ppostgraduate certificate”

General Objectives

  • Examine the science of cryptology and the relationship to its branches: cryptography, cryptanalysis, steganography and stegoanalysis
  • Analyze the types of cryptography according to the type of algorithm and according to its use
  • Compile key management systems
  • Evaluate the different practical applications
  • Examine digital certificates
  • Examine the Public Key Infrastructure (PKI)
  • Analyze the latest trends and challenges

Specific Objectives

  • Compile the fundamental operations (XOR, large numbers, substitution and transposition) and the various components (One-
  • Way functions, Hash, random number generators)
  • Analyze cryptographic techniques
  • Develop the different cryptographic algorithms
  • Demonstrate the use of digital signatures and their application in digital certificates
  • Assess key management systems and the importance of cryptographic key lengths
  • Examine key derivation algorithms
  • Analyze key life cycle
  • Evaluate block cipher and stream cipher modes
  • Determine pseudorandom number generators
  • Develop real world cryptography application cases, such as Kerberos, PGP or smart cards
  • Examine related associations and organizations, such as ISO, NIST or NCSC
  • Determine the challenges in quantum computing cryptography  
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Cryptography will be essential in your professional future: enroll now and get ready for important opportunities in the area of cybersecurity”

Postgraduate Certificate in Advanced Cryptography.

Advanced cryptography is a field of computer security that is responsible for securing the exchange of sensitive or secret information through the use of advanced encryption and decryption techniques. Its main objective is to protect the confidentiality, integrity and authenticity of data in transit and stored.

Advanced cryptography is based on complex mathematical algorithms that convert normal data into an unreadable and unreadable form for unauthorized persons. Encryption is used to transform the original message into one that can only be read by the authorized recipient, while decryption is used to convert the ciphertext back to normal text.

There are several types of advanced encryption and decryption techniques, the most common being symmetric key cryptography and public key cryptography. In symmetric key cryptography, the same secret (key) is used for both encrypting and decrypting data. The most common symmetric encryption algorithms are DES, AES and Blowfish. In public key cryptography, two different keys (one public and one private) are used for data encryption and decryption. This method relies on mathematical complexity to ensure high data security. The most common asymmetric encryption algorithms are RSA, ECC and Elgamal.

Advanced cryptography has evolved in recent years to address today's security threats. An example of this is homomorphism cryptography, which allows mathematical operations to be performed on encrypted data without first decrypting it. This provides increased security by preventing the exposure of sensitive data and reducing the risk of security breaches. However, advanced cryptography remains a constantly evolving field due to the complexity of increasingly sophisticated threats and attacks that are presented on a daily basis.

Advanced cryptography is a computer security technique that uses complex mathematical algorithms to protect the confidentiality, integrity and authenticity of data. It uses advanced encryption and decryption techniques, such as symmetric key cryptography and public key cryptography, and continues to evolve to address present and future security threats.