Description

This summary seminar will allow you to take a complete look at Web technologies. It will present to you in a simple and concrete way the underlying infrastructures and techniques, the standards and the tools available to develop efficient and secure applications. It will show you the impact of the introduction of new technologies such as mobility or e-commerce on applications and more generally on behavior and society.

Who is this training for ?

For whom ?

Project managers, IT decision-makers, developers, IT managers, Webmasters.

Prerequisites

• No special knowledge.

Training objectives

Understand the concepts of web technologies

Know the basic Internet infrastructures and services

Discover new client-side and server-side technologies

Know the new architectures and their security

Training program

• The information system
  • Role of intranet, Internet, Extranet applications in the IS.
  • New infrastructure.
  • Evolution towards n-tier architectures.
  • Evolution towards Cloud Computing.
• Operation of an Internet infrastructure
  • Architecture.
  • IP protocols, IPv6, GeoIP.
  • Addressing, application ports, DNS, routing.
  • MPLS quality of service.
  • Impact of the network on web performance.
  • Network topology: access providers.
  • Operators.
  • Evolution towards high speeds: FTTH optical fiber.
• Basic services
  • Messaging: MIME.
  • Protocols (POP3, IMAP4, SMTP).
  • Spam.
  • Email clients and servers.
  • Directories: concept.
  • User management, Whois, X.
  • 500.
  • LDAP protocol.
  • LDIF.
  • OpenLDAP, Domino.
  • Selection criteria.
  • Search engines: indexing, referencing, traffic analysis, sponsored links (Criteo, Adwords).
  • Collaborative tools: which tools for which needs? Portal, blog, wiki, online office.
  • Corporate social networks, collaborative spaces, CMS (SharePoint) , Joomla, Drupal.
  • ).
  • Multimedia over IP: image, sound, video on demand, streaming.
  • Multicast broadcast.
  • IPTV.
  • SIP protocol, VoIP, H323.
  • E-commerce: principle.
  • Platforms (Prestashop.
  • ).
  • E-payment.
• Security
  • Types of attacks on TCP/IP.
  • Security services: confidentiality, authentication, integrity, denial of service, non-repudiation.
  • Authentication : oAuth, Active Card, Secure ID, biometrics.
  • SSO, Kerberos authentication.
  • Access security: firewall, proxy.
  • Architecture, the DMZ.
  • Packet filtering, filtering routers, ACL.
  • Virtual private network: VPN.
  • IPSEC operation, L2F secure protocols, PPTP .
  • Security tunnel, SSH.
  • Cryptography: legislation.
  • Public key (PKI/EGC), certificate, electronic signature, SSL.
  • The trusted third party.
  • Legal obligations: CNIL, ISO 2700x standards.
• Client-side technologies
  • Browsers, their impacts.
  • Plug-ins.
  • URIs, the HTTP protocol.
  • HTML5, CSS3 languages and JavaScript.
  • The contributions of EcmaScript 6.
  • The HTML 5 JavaScript APIs (persistence management, access to terminal resources.
  • ).
  • JavaScript frameworks (AngularJS, jQuery.
  • ).
  • The specificities of mobile terminals and tablets: screen size, memory capacity, OS.
  • Impact of mobile terminals, tablets, computers on web interfaces: Responsive and Material Design.
  • Front End industrialization technologies (Grunt, Bower, Yeoman, Jasmine.
  • ).
  • XML language, XML Schema.
  • Parsers.
  • XML graphical interfaces: SVG, XAML.
  • Definition of Android interfaces via XML.
  • Rich interfaces and their ergonomics: Java FX8, QT, Flash.
  • XSLT processing.
  • Publishing with XSL-FO.
  • Web services.
• Server-side technologies
  • N-tier architectures.
  • Component-oriented approaches.
  • The Java EE architecture (JSF, JPA, EJB, JAX-RS.
  • ).
  • The Spring framework.
  • The framework.
  • NET and associated frameworks (NHibernate.
  • ) .
  • PHP, Zend Framework 2, Symfony 2.
  • Genesis of server-side JavaScript and Node.
  • js.
  • The Google V8 engine.
  • Access to data.
• Web servers and application servers
  • Servers: databases, applications, Web.
  • Their positioning in relation to the Internet.
  • Load balancing and high availability, NginX.
  • The cluster approach.
  • Web servers (Apache, IIS.
  • ).
  • NodeJS JavaScript servers.
  • Hosts.
  • Application servers.
  • Presentation, distributed object and administration services.
  • The commercial offer: IBM WebSphere, Oracle Application Server.
  • The Open Source offering: Tomcat, JBoss WildFly, GlassFish.
• Distributed architectures and Web Services
  • Standards (SOAP, WSDL, UDDI, BPML, BPEL), implementation.
  • SOAP and REST Web services.
  • Connecting Web Services to existing applications.
  • SOA architectures.
  • Specificities.
  • Overview of other technologies.
  • Cloud Computing platforms: IAAS , PASS, SAAS (Amazon Web Services, Azure.
  • ).
  • Big Data and NoSQL (Hadoop, Cloudera, MongoDB, Cassandra).
  • Resource virtualization.
• Mobility
  • PANs and WI-FI, Wimax, Bluetooth standards.
  • LAN networks, Wireless Wan, radio loop.
  • Technologies in a cellular environment: high-speed networks .
  • 3G, 4G.
  • VoIP over LTE (VoLTE).
  • High-speed networks.
  • Private wireless networks.
  • IP in a mobile environment.
  • Mobile terminals.
  • Security.
  • Connected objects.
  • Low-speed iot networks: SigFox, LoRa.
• Understanding Digital
  • Difference between Digital and Digital.
  • e-Reputation and web publication.
  • Issues of private data, European regulations.
  • Impact of time to market on the risks for the company.