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Duration 5 Days 30 CPD hours This course is intended for This course is designed for IT professionals who want to develop penetration testing skills to enable them to identify information-system vulnerabilities and effective remediation techniques for those vulnerabilities. Target students who also need to offer practical recommendations for action to properly protect information systems and their contents will derive those skills from this course. This course is also designed for individuals who are preparing to take the CompTIA PenTest+ certification exam PT0-002, or who plan to use PenTest+ as the foundation for more advanced security certifications or career roles. Individuals seeking this certification should have three to four years of hands-on experience performing penetration tests, vulnerability assessments, and vulnerability management. Overview After completing this course, you will be able to plan, conduct, analyze, and report on penetration tests, including the ability to: Plan and scope penetration tests. Conduct passive reconnaissance. Perform non-technical tests to gather information. Conductive active reconnaissance. Analyze vulnerabilities. Penetrate networks. Exploit host-based vulnerabilities. Test applications. Complete post-exploit tasks. Analyze and report pen test results. Security remains one of the hottest topics in IT and other industries. It seems that each week brings news of some new breach of privacy or security. As organizations scramble to protect themselves and their customers, the ability to conduct penetration testing is an emerging skill set that is becoming ever more valuable to the organizations seeking protection, and ever more lucrative for those who possess these skills. In this course, you will be introduced to some general concepts and methodologies related to pen testing, and you will work your way through a simulated pen test for a fictitious company. 1 - Outline Lesson 1: Scoping Organization/Customer Requirements Lesson 2: Defining the Rules of Engagement Lesson 3: Footprinting and Gathering Intelligence Lesson 4: Evaluating Human and Physical Vulnerabilities Lesson 5: Preparing the Vulnerability Scan Lesson 6: Scanning Logical Vulnerabilities Lesson 7: Analyzing Scanning Results Lesson 8: Avoiding Detection and Covering Tracks Lesson 9: Exploiting the LAN and Cloud Lesson 10: Testing Wireless Networks Lesson 11: Targeting Mobile Devices Lesson 12: Attacking Specialized Systems Lesson 13: Web Application-Based Attacks Lesson 14: Performing System Hacking Lesson 15: Scripting and Software Development Lesson 16: Leveraging the Attack: Pivot and Penetrate Lesson 17: Communicating During the PenTesting Process Lesson 18: Summarizing Report Components Lesson 19: Recommending Remediation Lesson 20: Performing Post-Report Delivery Activities Additional course details: Nexus Humans CompTIA Penetration Testing Certification (PenTest Plus) - (Exam PT0-002) training program is a workshop that presents an invigorating mix of sessions, lessons, and masterclasses meticulously crafted to propel your learning expedition forward. This immersive bootcamp-style experience boasts interactive lectures, hands-on labs, and collaborative hackathons, all strategically designed to fortify fundamental concepts. Guided by seasoned coaches, each session offers priceless insights and practical skills crucial for honing your expertise. Whether you're stepping into the realm of professional skills or a seasoned professional, this comprehensive course ensures you're equipped with the knowledge and prowess necessary for success. While we feel this is the best course for the CompTIA Penetration Testing Certification (PenTest Plus) - (Exam PT0-002) course and one of our Top 10 we encourage you to read the course outline to make sure it is the right content for you. Additionally, private sessions, closed classes or dedicated events are available both live online and at our training centres in Dublin and London, as well as at your offices anywhere in the UK, Ireland or across EMEA.

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Asbestos surveyors, or managers of surveyors and surveying teams. Asbestos re-inspectors or anyone that undertakes asbestos re-inspections. Those who require a detailed understanding of asbestos surveying principles (e.g. asbestos report writers, architects, building surveyors etc.) Prior Knowledge and Understanding Candidates for this course are expected to be aware of the contents of HSG 264 Asbestos, the survey guide and have a minimum of six months prior experience of assisting on asbestos surveys. In addition, candidates are expected to have had training to cover the core competencies outlined within the foundation material detailed within Table A9.1 of HSG248 Asbestos: The Analysts' Guide (July 2021). This may be achieved by In -house learning or through the P400 foundation module.

LTE Backhaul training course description This course provides a concise insight into the LTE backhaul. Key parts of the course are detailed looks at the transport of messages and the S1 and X2 protocols. What will you learn Describe the overall architecture of LTE. Explain how data and signalling messages are transported in LTE. Describe the S1 protocol. Describe the X2 protocol. LTE Backhaul training course details Who will benefit: Anyone working with LTE. Prerequisites: Mobile communications demystified Duration 2 days LTE Backhaul training course contents Introduction In the first section of the course, we review LTE and its hardware and software architecture. Requirements and key features of LTE. LTE Architecture and capabilities of the UE. Architecture of the E-UTRAN, functions of the eNB. EPC architecture, and functions of the MME, SGW, PGW and PCRF. System interfaces and protocol stacks. Example information flows. Dedicated and default bearers. EMM, ECM and RRC state diagrams. Architecture of the radio access network In this section, we look in more detail at the architecture of the evolved UMTS terrestrial radio access network (E-UTRAN). Logical and physical architecture of the E-UTRAN. Numbering, addressing and identification. E-UTRAN functions. E-UTRAN protocol stacks. Timing and frequency synchronisation in LTE. Transport of data and signalling in LTE Here, we look in more detail at the techniques and protocols that are used to transport data and signalling messages across the evolved UMTS terrestrial radio access network and the evolved packet core. Quality of service in LTE. The GPRS tunnelling protocol. Differentiated services Multi-protocol label switching (MPLS). The stream control transmission protocol (SCTP). The S1 application protocol This section gives a detailed account of the signalling procedures in the S1 application protocol, which the MME uses to control the operation of the eNB. The material looks at the procedures, messages and information elements, and relates them to the system-level procedures in which they are used. S1 setup procedure. UE context management procedures. Non access stratum information transport. Procedures for managing the evolved radio access bearer (E-RAB). Paging procedures. Mobility management procedures for S1-based handovers. Procedures in support of self-optimising networks. The X2 application protocol This section gives a detailed account of the signalling procedures in the X2 application protocol, which is used for peer-to-peer communication between eNBs. The material looks at the procedures, messages and information elements, and relates them to the system-level procedures in which they are used. X2 setup procedure. Mobility management procedures for X2-based handovers Procedures in support of self-optimising networks. High level system operation In the final section, we bring our discussions of the S1 and X2 application protocols together by reviewing the system-level operation of LTE. Attach procedure. Transitions between the states of RRC Idle and RRC Connected. Tracking area updates in RRC Idle. Handover procedures in RRC Connected.

LTE Airside training course description This course provides a concise insight into the LTE airside. Key parts of the course are detailed looks at the air interface protocol stack, cell acquisition, transmission and reception of data and of he layer 1 procedures along with layer 2 procedures. What will you learn Explain the RF optimisation flowchart. Describe the importance of Reference Signal Received Power (RSRP). List many of the 3GPP recommended KPIs. Describe the concept of APN AMBR and UE AMBR within LTE. Describe the use of planning and optimisation computer tools. LTE Airside training course details Who will benefit: Anyone working with LTE. Prerequisites: Essential LTE Duration 2 days LTE Airside training course contents Introduction and review of LTE This section describes the requirements of LTE and key technical features, and reviews the system architecture. LTE Architecture, UE, E-UTRAN and EPC. Specifications. OFDMA, SC-FDMA and MIMO antennas This section describes the techniques used in the LTE air interface, notably orthogonal frequency division multiple access (OFDMA) and multiple input multiple output (MIMO) antennas. Communication techniques for fading multipath channels. OFDMA, FFT processing and cyclic prefix insertion. SC-FDMA in the LTE uplink. Multiple antenna techniques including transmit & receive diversity and spatial multiplexing. Introduction to the air interface This section covers the operation of the air interface, the channels that it uses, and the mapping to the time and frequency domains of OFDMA and SC-FDMA. Air interface protocol stack. Logical, transport and physical channels. Frame and slot structure, the resource grid. Resource element mapping of the physical channels and physical signals. LTE spectrum allocation. Cell acquisition This is the first of three sections covering the air interface physical layer. Here, we cover mobile procedures to start low-level communications with the cell, and base station transmission of the corresponding information. Primary/secondary synchronisation signals. Downlink reference signals. The master information block. Physical control format indicator channel. Organisation and transmission of the system information. Data transmission and reception In this section, we cover procedures used for data transmission and reception on the shared channels, and describe in detail the individual steps. Data transmission and reception on the uplink and downlink. Scheduling commands and grants on the PDCCH. DL-SCH and UL-SCH. Physical channel processing of the PDSCH and PUSCH. Hybrid ARQ indicators on the PHICH. Uplink control information on the PUCCH. Uplink demodulation and sounding reference signals. Additional physical layer procedure This section concludes our discussion of the air interface physical layer, by discussing a number of procedures that support its operation. Transmission of the physical random access channel. Contention and non-contention based random access procedures. Discontinuous transmission in idle and connected modes. Uplink power control and timing advance. Air interface layer 2 This section describes the architecture and operation of layer 2 of the air interface protocol stack. MAC protocol, interactions with the physical layer, use for scheduling. RLC protocol, transparent, unacknowledged and acknowledged modes. PDCP, including header compression, security functions and recovery from handover.

Training duration: 10 hrs. Click here for more info Method: 1-2-1, Personalized attention, Tailored content, Flexible pace, Individual support. Schedule: Personalized training experience with our flexible 1-2-1 sessions. Tailor your own schedule by pre-booking a convenient hour of your choice, available from Monday to Saturday between 9 am and 7 pm. Learn Arnold for 3ds Max and make breath-taking renders with our comprehensive training course. Led by certified tutors and industry experts, you'll master the basics to advanced techniques of creating stunning visual effects and lifelike renderings. Course Duration: 10 hours Course Outline: Session 1: Introduction to Arnold Renderer (1 hour) Unveiling Arnold Renderer's features and capabilities Understanding the benefits of Arnold in 3ds Max Setting up Arnold renderer and exploring its interface Mastering the workflow for exceptional results Session 2: Basic Arnold Shading (1 hour) Navigating the Arnold shading network Creating essential materials with Arnold shaders Working with diverse shader types (standard, Lambert, etc.) Elevating visuals with maps and textures in Arnold's materials Session 3: Arnold Lighting Techniques (1.5 hours) Embracing the art of lighting with Arnold Lights Implementing various light types (area lights, spotlights, etc.) Creating ambiance with Arnold skydome and environment lighting Illuminating scenes using physical sky and image-based lighting Session 4: Arnold Cameras and Rendering Settings (1.5 hours) Mastering Arnold cameras and their settings Achieving depth of field and motion blur effects in Arnold Configuring optimal rendering settings for superior results Fine-tuning rendering with the Arnold Render Setup dialog Session 5: Advanced Arnold Shading (1.5 hours) Creating intricate materials with advanced Arnold shaders Realistic surfaces with Arnold's procedural textures Harnessing the power of advanced shading nodes (bump, displacement, etc.) Unleashing specialized effects with Arnold shaders (subsurface scattering, hair, etc.) Session 6: Arnold Rendering Optimization (1 hour) Streamlining rendering settings for enhanced efficiency Leveraging Arnold features like adaptive sampling and denoising Noise reduction techniques for smoother Arnold renders Troubleshooting common rendering issues and their solutions Session 7: Advanced Lighting Techniques (1 hour) Crafting lifelike lighting setups with Arnold's prowess Exploring advanced lighting properties (exposure, color temperature, etc.) Enhancing lighting with Arnold light filters and modifiers Implementing captivating effects like volumetric lighting and caustics Session 8: Arnold AOVs and Compositing (1 hour) Understanding Arnold AOVs (Arbitrary Output Variables) Configuring and rendering AOVs for post-production control Compositing AOVs for artistic adjustments in post-production Leveraging AOVs for fine-tuning the final image Session 9: Arnold for Animation and Motion Graphics (1 hour) Integrating Arnold seamlessly into animation and motion graphics projects Rendering animation sequences with finesse Managing motion blur and time-based effects with Arnold Unveiling Arnold's potential for particle rendering and dynamic effects Session 10: Arnold Tips, Tricks, and Best Practices (1 hour) Exploring advanced techniques and workflows for exceptional results Optimizing scene setup for enhanced rendering performance Troubleshooting tips for common issues and errors in Arnold Q&A session and final review to consolidate knowledge

VSAT training course description This 2 day training course examines what VSAT is, its usages and users. It then looks at the hardware required for VSAT. What will you learn Explain how VSAT is used Describe the hardware required for VSAT operation. VSAT training course details Who will benefit: Anyone working with VSAT. Prerequisites: None. Duration 2 days VSAT training course contents Introduction History of PMR VSAT Introduction A Brief History Satellite Services Satellite Communications Satellite Footprint Radio Frequency Bands ITU Definitions VSAT Users What is a VSAT? VSATs - Usage VSATs - Users VSAT Hardware Typical System Hardware VSAT ODU and IDU VSAT Station Equipment Diplexer and Feed Horn Typical Waveguide Element Polarisation VSAT Hub Antenna Pointing Outdoor Unit Outdoor (continued) VSAT Network Earth Stations Indoor Unit VSAT Network Earth Stations Indoor Unit Element Hub Station Hub Sub-station Hub Options Hub Options (2) Hub Options (3) Temporary Mount

Asbestos bulk analysts and laboratory analysts. Anyone who manages asbestos analysts or requires a deeper understanding of the asbestos analysis process (e.g. Laboratory Quality Manager) Prior Knowledge and Understanding Candidates for this course are expected to be aware of HSG 248 Asbestos: The Analysts' Guide (July 2021), and in particular Appendix 2: Determination of asbestos in bulk materials. Candidates will preferably have prior experience of analysing bulk samples and may already be participating in a quality control scheme. In addition, candidates are expected to have had training to cover the core competencies outlined within the foundation material detailed within Table A9.1 of HSG248 Asbestos: The Analysts' Guide (July 2021). This may be achieved by In -house learning or through the P400 foundation module.

Junos Operating System training course description This course provides students with the foundational knowledge required to work with the Junos OS and to configure Junos devices. The course provides a brief overview of the Junos device families and discusses the key architectural components of the software. The course then delves into foundational routing knowledge and configuration examples including general routing concepts, routing policy, and firewall filters. Delegates will gain experience in configuring and monitoring the Junos OS and monitoring basic device operations. This course is based on Junos OS Release 15.1X49. What will you learn Describe the design architecture of the Junos OS. Navigate within the Junos CLI and perform tasks within the CLI operational and configuration modes. Configure and monitor network interfaces. Navigate within the Junos J-Web interface. Identify where you might use firewall filters. Explain basic routing operations and concepts. Identify key factors in Juniper Networks' security. Junos Operating System training course details Who will benefit: This course benefits individuals responsible for configuring and monitoring devices running the Junos OS. Prerequisites: TCP/IP foundation for engineers Duration 3 days Junos Operating System training course contents Junos Operating System Fundamentals The Junos OS Traffic Processing Overview of Junos Devices User Interface Options-The Junos CLI User Interface Options The Junos CLI: CLI Basics The Junos CLI: Operational Mode The Junos CLI: Configuration Mode User Interface Options-The J-Web Interface The J-Web GUI Configuration Lab 1: User Interface Options Initial Configuration Factory-Default Configuration Initial Configuration Interface Configuration Lab 2: Initial System Configuration Secondary System Configuration User Configuration and Authentication System Logging and Tracing Network Time Protocol Archiving Configurations SNMP Lab 3: Secondary System Configuration Operational Monitoring and Maintenance Monitoring Platform and Interface Operation Network Utilities Maintaining the Junos OS Password Recovery System Clean-Up Lab 4: Operational Monitoring and Maintenance Interface Configuration Examples Review of the Interface Configuration Hierarchy Interface Configuration Examples Using Configuration Groups Routing Fundamentals Routing Concepts: Overview of Routing Routing Concepts: The Routing Table Routing Concepts: Routing Instances Static Routing Dynamic Routing Lab 5: Routing Fundamentals Routing Policy Routing Policy Overview Case Study: Routing Policy Lab 6: Routing Policy Firewall Filters Firewall Filters Overview Case Study: Firewall Filters Unicast Reverse-Path-Forwarding Checks Lab 7: Firewall Filters Class of Service CoS Overview Traffic Classification Traffic Queueing Traffic Scheduling Case Study: CoS Lab 8: Class of Service JTAC Procedures Opening a Support Case Customer Support Tools Transferring Files to JTAC Juniper Security Concepts Security Challenges Juniper's Security Focus Appendix A: IPv6 Fundamentals IPv6 Addressing Protocols and Services Configuration