29753 PLA courses

Business Intelligence: In-House Training Business Intelligence (BI) refers to a set of technology-based techniques, applications, and practices used to aggregate, analyze, and present business data. BI practices provide historical and current views of vast amounts of data and generate predictions for business operations. The purpose of Business Intelligence is the support of better business decision making. This course provides an overview of the technology and application of BI and how it can be used to improve corporate performance. What you will Learn You will learn how to: Specify a data warehouse schema Identify the data and visualization to be used for data mining and Business Intelligence Design a Business Intelligence user interface Getting Started Introductions Agenda Expectations Foundation Concepts The challenge of decision making What is Business Intelligence? The Business Intelligence value proposition Business Intelligence taxonomy Business Intelligence management issues Sources of Business Intelligence Data warehousing Data and information Information architecture Defining the data warehouse and its relationships Facts and dimensions Modeling, meta-modeling, and schemas Alternate architectures Building the data warehouse Extracting Transforming Loading Setting up the data and relationships Dimensions and the Fact Table Implementing many-to-many relationships in data warehouse Data marts Online Analytical Processing (OLAP) What is OLAP? OLAP and OLTP OLAP functionality Multi-dimensions Thinking in more than two dimensions What are the possibilities? OLAP architecture Cubism Tools OLAP variations - MOLAP, ROLAP, HOLAP BI using SOA Applications of Business Intelligence Applying BI through OLAP Enterprise Resource Planning and CRM Business Intelligence and financial information Business Intelligence User Interfaces and Presentations Data access Push-pull data access Types of decision support systems Designing the front end Presentation formats Dashboards Types of dashboards Common dashboard features Briefing books and scorecards Querying and Reporting Reporting emphasis Retrofitting Talking back Key Performance Indicators Report Definition and Visualization Typical reporting environment Forms of visualization Unconstrained views Data mining What is in the mine? Applications for data mining Data mining architecture Cross Industry Standard Process for Data Mining (CISP-DM) Data mining techniques Validation The Business Intelligence User Experience The business analyst role Business analysis and data analysis Five-step approach Cultural impact Identifying questions Gathering information Understand the goals The strategic Business Intelligence cycle Focus of Business Intelligence Design for the user Iterate the access Iterative solution development process Review and validation questions Basic approaches Building ad-hoc queries Building on-demand self-service reports Closed loop Business Intelligence Coming attractions - future of Business Intelligence Best practices in Business Intelligence

Use Cases for Business Analysis The use case is a method for documenting the interactions between the user of a system and the system itself. Use cases have been in the software development lexicon for over twenty years, ever since it was introduced by Ivar Jacobson in the late 1980s. They were originally intended as aids to software design in object-oriented approaches. However, the method is now used throughout the Solution Development Life Cycle from elicitation through to specifying test cases, and is even applied to software development that is not object oriented. This course identifies how business analysts can apply use cases to the processes of defining the problem domain through elicitation, analyzing the problem, defining the solution, and confirming the validity and usability of the solution. What you will Learn You'll learn how to: Apply the use case method to define the problem domain and discover the conditions that need improvement in a business process Employ use cases in the analysis of requirements and information to create a solution to the business problem Translate use cases into requirements Getting Started Introductions Course structure Course goals and objectives Foundation Concepts Overview of use case modeling What is a use case model? The 'how and why' of use cases When to perform use case modeling Where use cases fit into the solution life cycle Use cases in the problem domain Use cases in the solution domain Use case strengths and weaknesses Use case variations Use case driven development Use case lexicon Use cases Actors and roles Associations Goals Boundaries Use cases though the life cycle Use cases in the life cycle Managing requirements with use cases The life cycle is use case driven Elicitation with Use Cases Overview of the basic mechanics and vocabulary of use cases Apply methods of use case elicitation to define the problem domain, or 'as is' process Use case diagrams Why diagram? Partitioning the domain Use case diagramming guidelines How to employ use case diagrams in elicitation Guidelines for use case elicitation sessions Eliciting the problem domain Use case descriptions Use case generic description template Alternative templates Elements Pre and post conditions Main Success Scenario The conversation Alternate paths Exception paths Writing good use case descriptions Eliciting the detailed workflow with use case descriptions Additional information about use cases Analyzing Requirements with Use Cases Use case analysis on existing requirements Confirming and validating requirements with use cases Confirming and validating information with use cases Defining the actors and use cases in a set of requirements Creating the scenarios Essential (requirements) use case Use case level of detail Use Case Analysis Techniques Generalization and Specialization When to use generalization or specialization Generalization and specialization of actors Generalization and specialization of use cases Examples Associating generalizations Subtleties and guidelines Use Case Extensions The <> association The <> association Applying the extensions Incorporating extension points into use case descriptions Why use these extensions? Extensions or separate use cases Guidelines for extensions Applying use case extensions Patterns and anomalies o Redundant actors Linking hierarchies Granularity issues Non-user interface use cases Quality considerations Use case modeling errors to avoid Evaluating use case descriptions Use case quality checklist Relationship between Use Cases and Business Requirements Creating a Requirements Specification from Use Cases Flowing the conversation into requirements Mapping to functional specifications Adding non-functional requirements Relating use cases to other artifacts Wire diagrams and user interface specifications Tying use cases to test cases and scenarios Project plans and project schedules Relationship between Use Cases and Functional Specifications System use cases Reviewing business use cases Balancing use cases Use case realizations Expanding and explaining complexity Activity diagrams State Machine diagrams Sequence diagrams Activity Diagrams Applying what we know Extension points Use case chaining Identifying decision points Use Case Good Practices The documentation trail for use cases Use case re-use Use case checklist Summary What did we learn, and how can we implement this in our work environment?

Use Cases for Business Analysis: In-House Training The use case is a method for documenting the interactions between the user of a system and the system itself. Use cases have been in the software development lexicon for over twenty years, ever since it was introduced by Ivar Jacobson in the late 1980s. They were originally intended as aids to software design in object-oriented approaches. However, the method is now used throughout the Solution Development Life Cycle from elicitation through to specifying test cases, and is even applied to software development that is not object oriented. This course identifies how business analysts can apply use cases to the processes of defining the problem domain through elicitation, analyzing the problem, defining the solution, and confirming the validity and usability of the solution. What you will Learn You'll learn how to: Apply the use case method to define the problem domain and discover the conditions that need improvement in a business process Employ use cases in the analysis of requirements and information to create a solution to the business problem Translate use cases into requirements Getting Started Introductions Course structure Course goals and objectives Foundation Concepts Overview of use case modeling What is a use case model? The 'how and why' of use cases When to perform use case modeling Where use cases fit into the solution life cycle Use cases in the problem domain Use cases in the solution domain Use case strengths and weaknesses Use case variations Use case driven development Use case lexicon Use cases Actors and roles Associations Goals Boundaries Use cases though the life cycle Use cases in the life cycle Managing requirements with use cases The life cycle is use case driven Elicitation with Use Cases Overview of the basic mechanics and vocabulary of use cases Apply methods of use case elicitation to define the problem domain, or 'as is' process Use case diagrams Why diagram? Partitioning the domain Use case diagramming guidelines How to employ use case diagrams in elicitation Guidelines for use case elicitation sessions Eliciting the problem domain Use case descriptions Use case generic description template Alternative templates Elements Pre and post conditions Main Success Scenario The conversation Alternate paths Exception paths Writing good use case descriptions Eliciting the detailed workflow with use case descriptions Additional information about use cases Analyzing Requirements with Use Cases Use case analysis on existing requirements Confirming and validating requirements with use cases Confirming and validating information with use cases Defining the actors and use cases in a set of requirements Creating the scenarios Essential (requirements) use case Use case level of detail Use Case Analysis Techniques Generalization and Specialization When to use generalization or specialization Generalization and specialization of actors Generalization and specialization of use cases Examples Associating generalizations Subtleties and guidelines Use Case Extensions The <> association The <> association Applying the extensions Incorporating extension points into use case descriptions Why use these extensions? Extensions or separate use cases Guidelines for extensions Applying use case extensions Patterns and anomalies o Redundant actors Linking hierarchies Granularity issues Non-user interface use cases Quality considerations Use case modeling errors to avoid Evaluating use case descriptions Use case quality checklist Relationship between Use Cases and Business Requirements Creating a Requirements Specification from Use Cases Flowing the conversation into requirements Mapping to functional specifications Adding non-functional requirements Relating use cases to other artifacts Wire diagrams and user interface specifications Tying use cases to test cases and scenarios Project plans and project schedules Relationship between Use Cases and Functional Specifications System use cases Reviewing business use cases Balancing use cases Use case realizations Expanding and explaining complexity Activity diagrams State Machine diagrams Sequence diagrams Activity Diagrams Applying what we know Extension points Use case chaining Identifying decision points Use Case Good Practices The documentation trail for use cases Use case re-use Use case checklist Summary What did we learn, and how can we implement this in our work environment?

This three-day investigation and interviewing skills course is an advanced course designed specifically for specialist investigators or those who undertake investigations on a full-time basis.

GDPR Practitioner

Duration 2 Days 12 CPD hours This course is intended for The primary audience for this course is any IT, facilities or data centre professional, consultant and/or those who work in network cabling system design, implementation and operation. Overview With few exceptions, enterprises today rely on IT for the delivery of business-critical services - often directly to the end consumer. It is therefore vital that the mission-critical data centre is designed, maintained and operated with high-availability and efficiency in mind. Among all the facilities, network cabling is the foundation for the network and one of the major contributors to the availability of the data center.CNCDP© is a 2-day course designed to expose participants to in-depth knowledge in designing and installing the data network cabling system which includes key subject matters such as; technical standards, designing of different cabling sub-systems, calculation of material requirements, architecture, installation, testing and acceptance. Introduction to Structured Cabling System (SCS) Brief history of SCS Basic copper and fibre transmission Copper and fibre cabling Single and multimode fibre Step/graded index multimode fibre Difference between Commercial Wiring and data centre cabling Development of standards Role of standards ANSI/TIA 568 standard Common standards The new usage of cabling to support Smart building Horizontal and Administration - Commercial Building Standard diagram recap: ANSI/TIA-568 Functional elements and example Scenario A: Determine the number of work areas Scenario B: Determine the number of user locations Zone wiring Administration: Interconnect and cross-connect Angled and flat panels Creating a cabling schematic design Convert schematic into physical layout Calculating the material list Horizontal and Administration - Data Centre Standard diagram recap: TIA-942 Basic/Reduced/Typical data centre setup Traditional 3 layers network design/ Spine and Leaf network design Select termination hardware Administration design ToR/EoR/Spine & Leaf cabling design Network and cabling resiliency Create cabling schematic design for ToR/EoR Convert into patch panel/rack layout Calculate the material list for ToR/EoR Building Backbone - Commercial Building Backbone diagram Calculate the copper backbone requirements per Telecom Room (TR) Calculate the fibre backbone requirements per Telecom Room Summarize the building backbone requirements Recognised cables Backbone Patch panels The maximum backbone distances Create cabling schematic design Converting the schematic design into patch panel/ rack layout Building Backbone - Data Centre TIA-942 based backbone topology TIA-942 backbone requirements Recognised backbone cable ToR/EoR/Spine and Leaf Backbone distance estimation Resiliency of backbone cable routes Creating cabling schematic design Converting the schematic design into patch panel/ rack layout Field and Fusion Termination for fibre connectors Pre-terminated fibre trunk and copper cables Architectural Considerations ANSI/TIA569-D Cable pathway and spaces Common requirements for the rooms Definition of the rooms Entrance Room/Demarcation Ceiling and floor pathways types Cable trays/basket/ladder/conduit Inner duct/sleeve/slot Calculating of pathway size Cable run best practices Cable management/AIM Grounding and bonding Separation distance requirements for copper cabling to power cabling Fire stopping Fire rated barrier Fire rated jacket cable Campus / Outdoor Backbone Common campus cable installation and cable types : Aerial cable / Direct-buried / Underground in-conduit Outdoor cable installation planning Lightning / surge protection Approved ground for surge protector Creating a schematic diagram Converting a schematic into a physical layout Site Inspection and Testing Visual site inspection notes Installation common issues Copper testing standard Permanent link / Channel / Patch cord / MPTL testing configuration Fibre connectors Fibre testing standard Tier 1 & 2 certification Fibre link definition Fibre testing steps Fibre inspection and cleaning Calibrating the test sets - 3 methods Setting up mandrel for testing Fibre loss budget calculation G.657 Bend insensitive fibre Optical Time-Domain Reflectometer (OTDR) Exam - Certified Network Cabling Design Professional (CNCDP©) The exam is a 60-minute closed book exam, with 40 multiple-choice questions. The candidate requires a minimum of 27 correct answers to pass the exam. Additional course details: Nexus Humans Certified Network Cabling Design Professional (CNCDP) 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 Certified Network Cabling Design Professional (CNCDP) 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.

Designed for professional B2B salespeople to develop a modern approach to winning business

PMI® Authorized PMP® Exam Preparation is a four-day course which will help delegates to build on their knowledge in every area of project and program management skill development. This certification positions learners to successfully complete the Project Management Professional (PMP)® examination.

Beginner-Intermediate practical small animal abdominal ultrasound workshop

Who is this course for? This course is ideal for individuals interested in learning landscape architecture, emphasizing the planning, design, and management of various outdoor spaces, such as private gardens, public parks, and commercial landscapes. Click here for more info: Website 1-on-1 training, Monday to Saturday, 9 a.m. to 7 p.m., or call to book. Tailor your 40-hour course  Option A: AutoCAD, Sketchup, Vray, and Photoshop.  Option B: Rhino, Sketchup, Vray, and Photoshop. Both covering specializes in Planting Plans and Maps. Course Outline - Option A: AutoCAD, Sketchup, Vray, Photoshop (Total: 40 hours) AutoCAD (10 hours): Module 1: Introduction to AutoCAD (2 hours) - Overview of AutoCAD interface and tools - Creating, opening, and saving drawings - Basic drawing and editing commands Module 2: Drawing and Editing (3 hours) - Working with lines, circles, and arcs - Utilizing polylines and polygons - Modifying objects: Move, Copy, Rotate, and Scale Module 3: Precision Drawing (3 hours) - Using coordinate systems for precision - Dimensioning and text incorporation - Hatching and gradients for added detail Module 4: Advanced Tools (2 hours) - Leveraging blocks and attributes - Managing layers and object properties - Creating layouts and preparing for plotting Sketchup (16 hours): (Specializing in Planting Plans, Vegetation Plans, and Maps) Module 1: Introduction to Sketchup (2 hours) - Navigating the Sketchup interface - Grasping basic 2D and 3D modeling concepts - Creating and manipulating objects Module 2: Advanced Modeling (6 hours) - Model intricate garden elements with curves and surfaces - Expertly edit and transform geometry - Specialized focus on Planting Plans, Vegetation Plans, and Maps Module 3: Visualization with Vray (4 hours) - Understanding the Vray rendering engine - Applying materials and textures for realism - Setting up lighting and cameras for realistic rendering Module 4: Image Enhancement with Photoshop (10 hours): - Introduction to Photoshop for design purposes - Editing and enhancing Sketchup and Vray outputs - Creating visually striking presentations Additional Resources: Access free online portfolio design assistance, career growth guidance, and mock interviews to ensure your readiness for the competitive job market. Course Outline - Option B: AutoCAD, Rhino, Vray, Photoshop (Total: 40 hours) AutoCAD (12 hours): Module 1: Introduction to AutoCAD (2 hours) - Overview of AutoCAD interface and tools - Creating, opening, and saving drawings - Basic drawing and editing commands Module 2: Drawing and Editing (3 hours) - Working with lines, circles, and arcs - Utilizing polylines and polygons - Modifying objects: Move, Copy, Rotate, and Scale Module 3: Precision Drawing (3 hours) - Using coordinate systems for precision - Dimensioning and text incorporation - Hatching and gradients for added detail Module 4: Advanced Tools (4 hours) - Leveraging blocks and attributes - Managing layers and object properties - Creating layouts and preparing for plotting Rhino (14 hours): Module 1: Introduction to Rhino (2 hours) - Navigating the Rhino interface - Grasping basic 2D and 3D modeling concepts - Creating and manipulating objects Module 2: Advanced Modeling (6 hours) - Model intricate garden structures with curves and surfaces - Proficiently edit and transform geometry - Build complex 3D structures Module 3: Visualization with Vray (6 hours) - Setting up lights and cameras for garden renders - Exploring rendering settings and options - Post-production and compositing techniques Image Enhancement with Photoshop (8 hours): - Introduction to Photoshop for design purposes - Editing and enhancing Rhino and Vray outputs - Creating visually striking presentations Both Option A and Option B provide comprehensive training in essential design software, with the choice between specialization in Sketchup (Option A) or a broader skill set with Rhino (Option B). Additionally, both options offer access to valuable resources for career preparation. When Can I Book this Training Course? Personalized 1-on-1 training sessions available, allowing for a tailored learning experience. Pre-book your preferred time slot from Monday to Saturday between 9 a.m. and 7 p.m. Alternatively, call 02077202581 to book over the phone. Training Duration 40-hour training program, with the flexibility to split hours based on your ideal learning schedule. Training Method Choose between in-person Face to Face or Live Online 1-on-1 training. Expect personalized attention, flexible learning pace, and individualized support throughout your training. Live Online sessions available over Zoom for added convenience. Enroll in our 1-on-1 Course Today! Comprehensive Training Program Overview Option A: AutoCAD (10 hours) Sketchup (16 hours) (Specializing in Planting Plans, Vegetation Plans, and Maps) Vray (4 hours) Photoshop (10 hours) Option B: AutoCAD (12 hours) Rhino (14 hours) Vray (6 hours) Photoshop (8 hours) Benefits of Option A: Diverse Skillset: Gain expertise in AutoCAD, Sketchup, Vray, and Photoshop for various design fields. Specialization: Focus on Planting Plans, Vegetation Plans, and Maps within Sketchup. Realistic Renderings: Learn Vray for compelling 3D renderings. Image Editing: Enhance images effectively with Photoshop. Career Readiness: Access resources like portfolio design assistance and mock interviews for job market readiness. Benefits of Option B: Versatile Expertise: Master AutoCAD, Rhino, Vray, and Photoshop for various design disciplines. Advanced 3D Modeling: Excel in complex designs with Rhino and 3ds Max. Quality Renderings: Create impressive 3D renderings with Vray. Image Editing Mastery: Perfect design concepts with Photoshop. Additional Training Course Benefits: Compatible with both Mac and Windows operating systems. Price Assurance for exceptional value. Flexible scheduling from Monday to Sunday, 9 am to 8 pm. Lifetime Email and Phone Support. Assistance in configuring your computer for seamless software installation. Referral Benefits, including special discounts for friend referrals and savings on group training courses.