Successful career development for future specialists is TRITECH primary goal. A high level of quality of future specialists’ education and practical training, support along the career ladder and operational support allows us to form on-fire specialist.
Today, a highly qualified aircraft maintenance technician is the most important link in ensuring flight safety. For airlines and aviation repair companies we provide B2B programs as a full-cycle service for the necessary specialists’ education. Individual requirements and critical points indicated by the customer are considered in the training of specialists.
Choose a career as an Aviation Specialist. Take your first step into the elite club of aviation professionals.
Maintenance Technician
Want to peek under the hood of a plane? Aviation school Tritech invites you to enrol in our EASA Part 147 aircraft mechanic program. Aircraft mechanic job is on the rise. If training to become an airframe and powerplant (A&P) aviation mechanic (also known as an AMT – aviation maintenance technician) in the aerospace industry is something you’ve been thinking about, we invite you to read on, and check out нашу рекламу! Become trained to repair helicopter and plane equipment, troubleshoot engine problems and more. There are thousands of entry level positions in this industry. So, if you are thinking about a career change, consider becoming an aircraft mechanic
What Is Required to Enrol in Tritech Aircraft Mechanic Program?
The requirements to enrol in our program are as follows:
First, you must be 18 years old by completion of the program.
Also, you must pass (пройти тест) an entry level exam online.
Additionally, you must speak, read, write, and understand English.
Finally, you must complete an interview with Tritech personnel. (We are screening for determination, ability, and reliability.)
Что требуется для участия в программеTritech Aircraft Mechanic?
What Happens After I Complete My Training?
First, you can begin applying for aircraft mechanic positions as soon as you’ve passed your theoretical and practical exam.
Use your network that you developed at Tritech to find the perfect job. We host regular career sessions with many airlines.
Likewise, check with Tritech’s partners maintenance program to see if we have openings. We love to hire our graduates!
Also, research current mechanic salaries and prepare for your interview.
Most importantly, get ready to enjoy your new career as an aircraft mechanic! Average starting salaries are approximately EUR 38,000.
Tritech. What Is a Part 147 School?
There are two ways of recognizing the student’s ability to demonstrate the necessary knowledge and skills for aircraft mechanic: practical experience or completion of a training program at a school certificated under EASA Part 147.
What Certificate Will I Earn in This Program?
You will earn a mechanic certificate with either an Airframe or Powerplant rating, or both upon completion of all courses, which is an Aircraft & Powerplant (A&P) Certificate EASA Part-66.
Is There a Need For A&Ps in The Workforce?
Aircraft maintenance technicians continue to be in high demand. There is a critical shortage of vocational and technical skills in today’s market, and we will provide training to help address that shortage
What Types of Jobs Are Available with This Training?
TRITECH’s Aircraft Mechanic Program opens the door for you to have an amazing career in aviation or related industries. By earning your Airframe & Powerplant (A&P), you will be on a pathway to your choice of financially rewarding aircraft mechanic jobs. This training allows you to work on everything from hot air balloons to jumbo jets. You will be qualified to work for commercial airlines, aircraft maintenance, private jet owners, government agencies, and even companies like medical aviation. You can even freelance and work for individual airplane owners. TRITECH maintains partnerships to provide interview opportunities for its graduates.
Upon completion of the program, you will possess programs EASA Part-147, the license and qualifications so you can be hired immediately. The demand is so high today that many airlines provide signing bonuses of up to EUR 5,000 and relocation incentives AND RE-TRAINING. Whether you are just starting in aviation or already established, the A&P license offers a fulfilling career. And, with more than 670,000 new jobs opening over the next 10 years, you will have many options. The cost of your educational investment will pay off in a field that offers numerous careers. Whether you find employment with EU or other countries or decide to work at great aviation technical school like TRITECH, we know you will find the career path that fits you best because the options are endless.
Aviation training centre TRITECH was formed in 2014 in Riga, in accordance with EASA standards. Our centre is school for professional training of aviation specialists. Our company offers the following types of educational services in accordance with EASA Part-66:
Aviation specialist training program – category A (mechanic)
Aviation specialist training program – category B1 (technician-mechanic)
Aviation specialist training program – category B2 (technician-avionic)
Aircraft Type Training program
Instructor’s personnel training program
Junior aviation specialist training program
Innovative aircraft training program
Aviation English training program
Professional courses programs for aviation specialists
TRITECH maintains a quality-oriented approach that keeps up to date by offering practical and innovative training.
uas/rpas training
UAS/RPAS Theoretical Training
Target Group
All personnel interested in UAS/RPAS operations to act as operator for commercial, professional, sporting or leisure purposes
Pre-requisites
None
Objective
This Drone Operator course is designed for those without previous flight experience to gain the necessary skills and knowledge for an Advanced Drone Operator Certificate.
Contents
Chapter 1: Applicable Regulations
Chapter 2: Airspace Classification, Operating Requirements, and Flight Restrictions
Controlled Airspace; Uncontrolled Airspace; Special Use Airspace; Other Airspace Areas; Air Traffic Control and the National Airspace System; Visual Flight Rules (VFR) Terms & Symbols; Notices to Airmen (NOTAMs)
Chapter 3b: Effects of Weather on Small Unmanned Aircraft Performance
Density Altitude; Performance; Measurement of Atmosphere Pressure; Effect of Obstructions on Wind; Low-Level Wind Shear; Atmospheric Stability; Temperature/Dew Point Relationship; Clouds; Fronts; Mountain Flying; Structural Icing; Thunderstorm Life Cycle; Ceiling; Visibility
Chapter 4: Small Unmanned Aircraft Loading
Weight; Stability; Load Factors; Weight and Balance.
Chapter 7: Radio Communication Procedures
Understanding Proper Radio Procedures; Traffic Advisory Practices at Airports without Operating Control Towers.
Chapter 8: Determining the Performance of Small Unmanned Aircraft
Effect of Temperature on Density; Effect of Humidity (Moisture) on Density
Chapter 9: Physiological Factors (Including Drugs and Alcohol) Affecting Pilot Performance
Physiological/Medical Factors that Affect Pilot Performance; Vision and Flight
Chapter 10: Aeronautical Decision-Making and Judgment
History of ADM; Risk Management; Crew Resource Management (CRM) and Single-Pilot Resource Management; Hazard and Risk; Human Factors; The Decision-Making Process; Decision-Making in a Dynamic Environment; Situational Awareness.
Chapter 11: Airport Operations
Types of Airports; Sources for Airport Data; Latitude and Longitude (Meridians and Parallels).
Chapter 12: Risk Assessment
Safety Hazard Identification, Safety Risk Assessment, Safety Risk Mitigation, Safety Risk Documentation + Case Study
All personnel interested in UAS/RPAS operations to act as operator for commercial, professional, sporting or leisure purposes
Pre-requisites
None
Objective
This Drone Operator course is designed for those without previous flight experience to gain the necessary skills. The course is designed to prepare the student to plan a commercial operation and operate an aircraft in real environment. Under the supervision of our instructors and experienced pilots, you will receive training in all stages of piloting for drones, multirotor and airplanes manually and automatically. You will master the flight chain from A to Z, allowing you100% autonomy.
Contents
• Operation Manual
• General Aircraft Knowledge
• Performance
• Limitations
• Preparation and handling (folding/removal of the wings)
• Installing Drone-Box
• Battery maintenance charging and safety
• Folding a parachute
• Firmware updates, parameterization, programming of professional drones
• Aircraft Assembly & Repairs
• Weight & Balance & Equipment
• Normal Procedures & Flight Planning
• Take-off, Hover Landing
• Flight Practice in Manual mode
• Flight practice of flight paths and flight configurations lateral, longitudinal
• Panoramic movements
• Cinematic and shooting movements
• Flight practice (assisted in GPS and ATTI modes)
• Emergency Procedures
• Flight log recording and management
Duration
5 days / 40 hours
Exam
Assessment
The Practical Flight Assessment should be done once you have passed the practical elements of the course. Assessment is designed to assess both your ability to adequately plan a commercial operation, as well as operate your aircraft.
You will be assessed against your procedures outlined in your Operations Manual. Assessment consist of a series of exercises, manoeuvres and simulated emergency scenarios.
All personnel interested in UAS/RPAS operations to act as operator for commercial, professional, sporting or leisure purposes
Pre-requisites
None
Objective
One of the most time-consuming parts to start to operate is the compilation of your Operations Manual. This course includes a workshop that will walk you through the document and by the end of the course you will get opportunity and guidance to complete your own Operations Manual.
Contents
Throughout the production of your manual, you can expect continued support from our instructors, as well as guidance material to enable you to produce a quality document.
Once your Operations Manual has been ratified by our instructors, you will conduct a practical flight assessment.
Duration
2 days / 16 hours
Exam
Assessment
You have to show that you can operate in accordance with your Operations Manual.
This course is perfect for advanced pilots. It's a beginner's guide how to use your drone in Agriculture.
Pre-requisites
• Advanced pilots who DON’T need basic flight manoeuvre training
• Students must provide their own laptop for editing purposes
Objective
Agriculture is one of the fastest-growing markets in the commercial drone industry today. UASs are quickly becoming an indispensable tool to help you become more efficient in the field and make more informed crop management decisions, disease detection, watering and spraying pesticides.
Contents
Digital Scouting and Crop protection
• Identify issues faster by scouting with timely and high-resolution drone maps.
• Understand your plant’s distress by exploring the different vegetation index maps.
• Link vegetation index maps to plant features by comparing and interpreting different layers of information side by side.
Crop production
• Obtain management-ready maps by aggregating information into zones.
• Create comprehensive Variable Rate Application Maps for a more targeted use of inputs.
• Connect with your Farming Management Platform and export any map in various industry standard formats.
• Insurance. Generate maps immediately to validate and sustain your insurance claims with visual proof.
• Breeding. Benefit from a new layer of information in your trials thanks to vegetation index maps and their custom vegetation indices.
• Irrigation and erosion control. Detailed Digital Surface Model to plan and manage your irrigation and to structure your field and minimize soil erosion.
• 3D Mapping. Obtain an accurate 3D representation of your crops and forest to better understand your operation in context.
Training syllabuses using Pix4D Software:
Chapter 1: Getting started with your first project
Chapter 2: Georeferencing
Chapter 3: Measurements
Chapter 4: Tie points
Chapter 5: Merging
Chapter 6: Mosaic Editor
Chapter 7: Multispectral camera (Parrot Sequoia)
Chapter 8: Index Calculator
Chapter 9: Video animation
Chapter 10: Quality assessment
Chapter 11: How to create an orthofacade
Chapter 12: Getting started with Pix4Dmodel
Chapter 13: DTM and contour lines
Chapter 14: Altitude and vertical coordinate system
Chapter 15: How to create a new camera model
Chapter 16: Processing speed
Chapter 17: Pix4Dcapture
Chapter 18: How to edit the point cloud
This course is perfect for advanced pilots. It's a beginner's guide on how to capture and edit your drone images and videos use your drone in Real Estate.
Pre-requisites
• Advanced pilots who DON’T need basic flight manoeuvre training
• Students must provide their own laptop for editing purposes
Objective
In this highly competitive industry, aerial real estate videography will set you apart from the crowd.
Aerial maps are useful for aiding in the sale of land. An up-to-date aerial map can be of considerable value in determining if the property is right for them.
Drone videos provide potential residential and commercial property buyers with a first-person perspective. Drone videos provide an actual tour that makes the buyer feel like they’re doing their own fly-over
Contents
Bring the ultimate 3D property experience to your website.
Collaborate, share and publish your 3D models online with your clients and your team or embed them on your website. You can pinpoint important elements, add annotations, and make distance and surface measurements.
Create videos.
Create immersive content importing your 3D models into 3D & VR platforms to offer immersive virtual tours. This allows thousands of potential buyers to explore the same property simultaneously, with total freedom.
Prints your 3D projects. With a 3D printed scale model, you can offer your clients a unique, physical way to discover a property, and allow them to hold it in the palm of their hands.
Training syllabuses using Pix4D Software:
Chapter 1: Getting started with your first project
Chapter 2: Georeferencing
Chapter 3: Measurements
Chapter 4: Tie points
Chapter 5: Merging
Chapter 6: Mosaic Editor
Chapter 7: Multispectral camera (Parrot Sequoia)
Chapter 8: Index Calculator
Chapter 9: Video animation
Chapter 10: Quality assessment
Chapter 11: How to create an orthofacade
Chapter 12: Getting started with Pix4Dmodel
Chapter 13: DTM and contour lines
Chapter 14: Altitude and vertical coordinate system
Chapter 15: How to create a new camera model
Chapter 16: Processing speed
Chapter 17: Pix4Dcapture
Chapter 18: How to edit the point cloud
This course is perfect for advanced pilots. It's a beginner's guide how to use your drone in Construction Industry.
Pre-requisites
• Advanced pilots who DON’T need basic flight manoeuvre training
• Students must provide their own laptop for editing purposes
Objective
The oil and gas industry have many needs for aerial inspection imaging. UAS technology can be used to monitor oil storage facility construction and operation, to ensure ongoing federal and statutory compliance.
Contents
Oil & Gas Pipeline Monitoring
Chimneys and Flare Stacks Inspections
Refinery and Storage Tank Inspections
Inspection Reports
Automatic generation of inspection reports with inspection statistics, visual and vectorized inspection results
3D Point Cloud Integration
Supporting synchronized, multimodal exploration of UAV images using 3D point clouds, 3D building models and 2D maps
UAV Image Organization
Fast and intelligent organizing and sorting of thousands UAV images
Inspection Workflows
Efficient tracking and controlling of inspection workflows
Digitizing Anomalies
Creating a customized database for structuring, recording and digitizing any types of anomalies (rust, hot spots, cracks, etc) directly from UAV images
CAD & GIS
Exporting inspection results into GIS and CAD formats
This course is perfect for advanced pilots. It's a beginner's guide how to use your drone in Construction Industry.
Pre-requisites
• Advanced pilots who DON’T need basic flight manoeuvre training
• Students must provide their own laptop for editing purposes
Objective
The construction industry also greatly benefits from drone mapping. Maps can be used to regularly update clients in the construction industry on the progress of their projects, analyse stockpiles of raw materials such as dirt and gravel, or even generate 3D models of construction sites. These maps help construction managers obtain the “big picture” and assist in strategic decision making.
Contents
Digital Scouting and Crop protection
• Monitor construction sites as they evolve. View the as-built situation of your site for up-to-date measurements and continued analysis, making earthwork management and detailed virtual inspections more efficient.
• Earthworks. Survey earthworks quickly, easily, and accurately and produce maps and 3D digital surface models for volumetric measurements, terrain modelling, and more.
• BIM. Monitor as-built site status to stay on task with BIM scheduling.
• Inspections. Create a georeferenced image database for safe and efficient post-flight inspection.
o Oil & Gas Aerial Inspection. The oil and gas industry have many needs for aerial inspection imaging. UAS technology can be used to monitor oil storage facility construction and operation, to ensure ongoing federal and statutory compliance.
o Waste Management. In the waste management industry, clients rely on up-to-date visual data of waste disposal sites. But drone imagery is also beneficial for site selection, asset planning and regulatory documentation.
o Solar & Wind. The renewable energy industry, including both solar and wind-based power generation, rely heavily on drone imaging. Solar contractors use our aerial image services for site evaluation. For solar farms located in remote areas, or those mounted above ground level, aerial inspection imagery allows clients to monitor, inspect and troubleshoot solar panels and infrastructure. Wind turbines generate a large percentage of power for many cities. However, because they are typically located in remote areas – and because of their sheer magnitude of size – inspecting wind turbines is expensive, time-consuming and dangerous.
o Water Treatment. Waste water treatment facilities utilize aerial inspection imaging for a variety of critical purposes. Drone images are ideal for documenting and analysing treatment processes, aeration functions and flow dynamics.
• Insurance Aerial Inspection. For property/casualty insurers and their clients, aerial insurance inspection imaging provides a responsive and highly detailed method for quoting coverage, policy underwriting and claims adjusting.
Training syllabuses using Pix4D Software:
Chapter 1: Getting started with your first project
Chapter 2: Georeferencing
Chapter 3: Measurements
Chapter 4: Tie points
Chapter 5: Merging
Chapter 6: Mosaic Editor
Chapter 7: Multispectral camera (Parrot Sequoia)
Chapter 8: Index Calculator
Chapter 9: Video animation
Chapter 10: Quality assessment
Chapter 11: How to create an orthofacade
Chapter 12: Getting started with Pix4Dmodel
Chapter 13: DTM and contour lines
Chapter 14: Altitude and vertical coordinate system
Chapter 15: How to create a new camera model
Chapter 16: Processing speed
Chapter 17: Pix4Dcapture
Chapter 18: How to edit the point cloud
This course is perfect for advanced pilots. It's a beginner's guide on how to use your drone in Topographic Surveys.
Pre-requisites
• Advanced pilots who DON’T need basic flight manoeuvre training
• Students must provide their own laptop for editing purposes
Objective
Topographic surveys are used in a variety of industries, including real estate and land development. Developers and end users leverage our services for site evaluation purposes. Lenders, investors and real estate brokers also use unmanned topographic surveys as a part of the due diligence documents.
Drone surveys easily facilitate the mapping of inaccessible areas and rough terrain – or anywhere that manual measurement presents a challenge.
Contents
Aerial imagery for disruptive surveying and mapping efficiency.
Take mapping into your own hands for urban planning, terrain modelling, large scale mapping, cadastre and much more. Pix4D software does the work for you, converting images from any camera into accurate maps and models.
Up-To-Date Maps.
GIS Compatibility. Export true orthomosaics, digital surface models and 3D models for farther analysis, as outputs are compatible with GIS and other professional platforms.
Training syllabuses using Pix4D Software:
Chapter 1: Getting started with your first project
Chapter 2: Georeferencing
Chapter 3: Measurements
Chapter 4: Tie points
Chapter 5: Merging
Chapter 6: Mosaic Editor
Chapter 7: Multispectral camera (Parrot Sequoia)
Chapter 8: Index Calculator
Chapter 9: Video animation
Chapter 10: Quality assessment
Chapter 11: How to create an orthofacade
Chapter 12: Getting started with Pix4Dmodel
Chapter 13: DTM and contour lines
Chapter 14: Altitude and vertical coordinate system
Chapter 15: How to create a new camera model
Chapter 16: Processing speed
Chapter 17: Pix4Dcapture
Chapter 18: How to edit the point cloud
This course is perfect for advanced pilots. It's a beginner's guide on how to use your drone in Mining Industry.
Pre-requisites
• Advanced pilots who DON’T need basic flight manoeuvre training
• Students must provide their own laptop for editing purposes
Objective
One industry that is already embracing mapping by drone is the mining industry. Up-to-date and detailed maps are used to manage stockpiles, water drainage, erosion detection, and pit and dump management among a host of other uses. Constantly updated maps can give managers better situational awareness that can assist in decision making.
Drone-based aerial mining surveys and inspections provide a highly effective method of gathering critical geographic data that would otherwise require a dangerous and costly ground-based approach.
Contents
Access all site operations from a safe distance while improving the efficiency and effectiveness of critical data collection with drones and 3D-mapping.
Generate high-resolution maps and accurate, interactive 3D models of the mine site to share with permitting authorities.
Optimize site development.
Optimize the layout of the mine facilities and infrastructure using regularly updated base maps.
Make decisions and ensure development phases are completed as anticipated.
Identify and mitigate issues as they emerge.
Update production progress and forecasts frequently
Produce more precise 3D stockpile models with highly accurate volume measurements
Provide real-time updates on production progress and forecasts, stockpile sizes, and composition.
Reduce operational risk.
Forecast geotechnical hazards quantitatively – such as rockbursts, water inflows and slope stability.
More informed decisions.
Understand complex situations faster with rapid data collection and 3D mapping.
Training syllabuses using Pix4D Software:
Chapter 1: Getting started with your first project
Chapter 2: Georeferencing
Chapter 3: Measurements
Chapter 4: Tie points
Chapter 5: Merging
Chapter 6: Mosaic Editor
Chapter 7: Multispectral camera (Parrot Sequoia)
Chapter 8: Index Calculator
Chapter 9: Video animation
Chapter 10: Quality assessment
Chapter 11: How to create an orthofacade
Chapter 12: Getting started with Pix4Dmodel
Chapter 13: DTM and contour lines
Chapter 14: Altitude and vertical coordinate system
Chapter 15: How to create a new camera model
Chapter 16: Processing speed
Chapter 17: Pix4Dcapture
Chapter 18: How to edit the point cloud
All personnel interested in UAS/RPAS operations to act as operator for commercial, professional, sporting or leisure purposes
Pre-requisites
None
Objective
This Drone Operator course is designed for those without previous flight experience to gain the necessary skills and knowledge for an Advanced Drone Operator Certificate.
Contents
Chapter 1: Applicable Regulations
Chapter 2: Airspace Classification, Operating Requirements, and Flight Restrictions
Controlled Airspace; Uncontrolled Airspace; Special Use Airspace; Other Airspace Areas; Air Traffic Control and the National Airspace System; Visual Flight Rules (VFR) Terms & Symbols; Notices to Airmen (NOTAMs)
Chapter 3b: Effects of Weather on Small Unmanned Aircraft Performance
Density Altitude; Performance; Measurement of Atmosphere Pressure; Effect of Obstructions on Wind; Low-Level Wind Shear; Atmospheric Stability; Temperature/Dew Point Relationship; Clouds; Fronts; Mountain Flying; Structural Icing; Thunderstorm Life Cycle; Ceiling; Visibility
Chapter 4: Small Unmanned Aircraft Loading
Weight; Stability; Load Factors; Weight and Balance.
Chapter 7: Radio Communication Procedures
Understanding Proper Radio Procedures; Traffic Advisory Practices at Airports without Operating Control Towers.
Chapter 8: Determining the Performance of Small Unmanned Aircraft
Effect of Temperature on Density; Effect of Humidity (Moisture) on Density
Chapter 9: Physiological Factors (Including Drugs and Alcohol) Affecting Pilot Performance
Physiological/Medical Factors that Affect Pilot Performance; Vision and Flight
Chapter 10: Aeronautical Decision-Making and Judgment
History of ADM; Risk Management; Crew Resource Management (CRM) and Single-Pilot Resource Management; Hazard and Risk; Human Factors; The Decision-Making Process; Decision-Making in a Dynamic Environment; Situational Awareness.
Chapter 11: Airport Operations
Types of Airports; Sources for Airport Data; Latitude and Longitude (Meridians and Parallels).
Chapter 12: Risk Assessment
Safety Hazard Identification, Safety Risk Assessment, Safety Risk Mitigation, Safety Risk Documentation + Case Study
This course is perfect for advanced pilots. It's a beginner's guide on how to capture and edit your drone videos into something commercially viable.
The editing software you will be trained on is Adobe Premiere Pro, a popular product used widely within the industry for its large suite of options and accessible functionality.
Pre-requisites
• Advanced pilots who DON’T need basic flight manoeuvre training
• Students must provide their own laptop for editing purposes
Objective
The UAS Photography course will teach you the basics principles of photography and videography and applies them to the world of drones.
The UAS Videographer course is ideal for any experienced UAS/drone pilot who wants to get their video making skills up to a professional level.
Contents
Introduction
The history of photography & the role pictures plays in our world
Copyright law
The photographic mindset
Developing your own photographic style
Capturing the right Shots
Filming
Camera Settings & White Balance: Getting it right in-camera saves fixing in post
Memory Cards: Information on capacity and speed
Using Filters: Why to make use of these essential add-ons
Filming with Your Drone: Height isn't everything
Composition: Learn to get great shots every time
Filming for the Edit: Composing scenes that make sense in the final product
Post Production
Work Flow: Best practice to make your life easier
Footage Format: Learning the ins and outs of various file types
Importing Footage: Ensure you have access to effective material
Music: Choosing the right track and cutting to the beat
Basic Editing Techniques: This includes keyboard shortcuts, tips and tricks
Rendering: The importance of rendering your footage
Colour Grading: How to make the footage look its best
Graphics: Learn to add graphical imagery and text to your video
Output and Sharing: Think YouTube and Vimeo, how to optimise your settings
