TRAINING DIVISION Course Catalog Crafting experts for the challenges of tomorrow Vincent Smith Lead Instructor
COTS PROGRAM The Commercial off the shelf (COTS) or naked man program develops and enhances the technical skills and knowledge of security specialists operating in expeditionary or non-permissive environments. The courses available within this program will teach the student how to leverage readily available technologies to produce intelligence gathering, surveillance, communication and force protection assets.
At Liberty Alliance, we focus on developing organizational and individual technical capability through the provision of high quality, operationally current, and relevant technical training to government organizations to enable deniable surveillance and intelligence gathering operations in semi and non-permissive environments Our Training Commercial Off The Shelf (COTS) Training ● Our program is unparalleled and is the most developed and advanced curriculum worldwide. ● All courses can be tailored to specific user requirements. Basic, intermediate, and advanced options are available for every offering ● Courses can be executed at Liberty Alliances facilities, or a customer preferred location. COTS Programme
COTS Programme The program is aimed at operators and technicians from military government, and law enforcement organizations, who may find themselves in the described environments whilst performing their duties. The COTS program is designed to allow an operator to: • Travel into a theatre of operations clean (i.e nothing that would identify them as being military, government, law enforcement etc. • Procure equipment from available local suppliers (markets/bazaas/shops) • Manipulate that equipment and/or harvest components top provide the operator with a covert and deniable surveillance and/or intelligence gathering capability (Audio, Video, SigInt or TTL)
Our training catalog showcases an array of courses designed to inspire and meet your unique needs. While the following pages offers a taste of what we can provide, our expertise extends beyond these offerings. We pride ourselves on developing tailor-made courses that align with your specific requirements and objectives. A majority of our training courses utilize a core set of technologies and modules, allowing us to seamlessly integrate and adapt content to your preferences. We encourage you to reach out to our team of experts, who can recommend a targeted training program that builds on the knowledge and skills gained from other courses. Please don't hesitate to contact us, as we are eager to collaborate with you in designing the perfect training experience for your organization COTS Programme
COTS ESSENTIALS 1 AIM The COTS Essential Course empowers covert operators with the skills and knowledge required to quickly adapt and make use of Commercial & Consumer off-the-shelf (COTS) technologies in order to be used in technical surveillance missions DURATION 5 DAYS
TRAINING OVERVIEW We advise completing this foundational training module before proceeding with any other COTS courses listed in this catalog. In this module, students will acquire the skills to repurpose commercial technologies such as mobile phones, wireless transmitters, and handheld radios for surveillance operations. The curriculum covers essential electronics knowledge through extensive hands-on practical exercises, eventually progressing to advanced courses that enable students to create surveillance devices from scratch using non-attributable, affordable electronic components. Upon successful completion of the course, students will possess the expertise to construct equipment for any theater of operation, requiring only a modest budget to utilize existing technologies accessible worldwide. • Understand Basic Electronic Theory • Identify Common Electrical Components • Create Basic Electronic Circuits on a Breadboard • Use Test and Measurement Equipment • Master Circuit Board Soldering Techniques • Build Sensors and Actuators • Adapt Commercially Available Equipment's to Cover the Full Surveillance Spectrum. Participants Completing this training will be able to:
COTS ESSENTIALS 2 AIM The aim of this program is to up-skill participants theoretical and practical skills acquired from COTS essentials 1 by encouraging free thinking, independent design focus and problem solving in order to create fit for purpose technical devices from commercially available materials, products and tools. DURATION 5 DAYS
This training programme is designed to follow COTS Essentials 1 by providing an increases level of technical knowledge and skills. During essentials 1, participants imitated and reproduced projects without having to interpret the electronic schematic diagram. During the level 2 programme, students break new ground and are instructed in new skills enabling them to read detailed electronic schematic diagrams, successfully interpret them, and prototype these electronic circuits onto a circuit board. The training team will present a new way of thinking about possibilities of electronic circuits and devices on the market and how items can be combined to build a device fit for a mission specific purpose. Detailed instruction and practice is provided on component harvesting and where to find the open source information online to refine and improve this newly discovered and unique skill set. Independent thinking is put to the test when operators are given a task to purchase equipment and supplies at local shops, then construct their own innovative design and manipulation of the equipment to meet the criteria. Participants Completing this training will be able to: TRAINING OVERVIEW • Understand deeper digital electronics such as logic gates • Gain an understanding of Operational Amplifiers • Read schematic diagrams, adapt them for surveillance use and successfully replicate them on circuit board • Create advanced projects such as sending audio over laser • Understand and manipulate COTS Bluetooth devices • Historically record audio while simultaneously listening over GSM
COTS SURFACE MOUNTED TECHNOLOGIES AIM The aim of this module is to teach participants the skills and knowledge required to work with surface mounted technologies in order create small form factor surveillance devices DURATION 5 DAYS
TRAINING OVERVIEW Surface-mount technology (SMT) is a method for producing electronic circuits in which the components are mounted or placed directly onto the surface of Printed Circuit Boards (PCBs). An electronic device made in this way is called a Surface Mounted Device (SMD). In the electronics industry, this has largely replaced the ‘through-hole’ technology construction method of fitting components with wire leads into holes on the circuit board. Both technologies can be used on the same board for components not suited to surface mounting such as electrolytic capacitors, large transformers and heat-sinked power semiconductors. The Level 1 & 2 CotS courses are based around the old Insertion Mount Technology (IMT) and Strip Board Prototyping to build up the students soldering techniques. As technology has progressed it has become increasingly difficult to harvest IMT from everyday items for use in projects. This SMT programme provides participants with new skills and techniques required to work with Surface Mount Technology in order to produce small form factor surveillance devices. Participants will design Printed Circuit Boards (PCBs) using Computer Aided Design (CAD) software, and produce PCBs using readily available chemicals and harvested components. • Identify Surface Mount Components (SMT) • Apply specialist surface mounted component soldering techniques effectively • Master open-source Computer Aided Design (CAD) software • Etch circuit boards using commonly found chemicals and materials • Successfully harvest SMT components from everyday items • Create advanced, miniature surface mounted component projects Participants Completing this training will be able to:
COTS IP TECHNOLGIES & MESH AIM The aim of this course is to teach operators how to create secure mesh networks and nodes with internet reach back using COTS equipment DURATION 5 DAYS
In the modern world we are heavily reliant on IP technologies and almost every modern device uses IP Technologies to transfer data safely and securely. Data ownership and security are very important but how do we achieve the same high-speed data communications we are accustomed to in a denied communication environment. Many military radios form a ‘self-healing’, self-forming mesh network to achieve data communications in denied environments. This IP Technologies and Mesh programme uses commercial off the shelf equipment that can be manipulated to achieve the same sort of results at a fraction of the cost. All IP Communications can be secured and encrypted using free open-source Virtual Private Network (VPN) technologies and established over 802.11 Wi-Fi standard mesh networks to provide stand alone, end-of-world type data communications that do not require GSM or Satellite. Participants Completing this training will be proficient in: TRAINING OVERVIEW • Fundamental theory of IP networking • IP Camera selection and set up • Virtual Private Networks (VPNs) • Mesh Networking • Stand alone, self hosted messaging, file transfer and VOIP servers
COTS ADVANCED IP & MESH AIM The aim of this module further participants mesh networking knowledge, increase the distance between mesh nodes and increase the services offered over a COTS mesh. DURATION 5 DAYS
TRAINING OVERVIEW The Advanced IP Technologies Mesh Course empowers operators with a higher technical understanding of IP technologies, introduces new concepts and technologies and offers natural progression on the skills learnt on the IP Technologies mesh course. Modern technology and microcomputers allow us to self-host messaging servers, Voice over IP communications, file transfer, video servers, tracking and control servers. All of these with internet ‘reach back’ if permissible and with additional fabricated passive antennas, distances of over 30 Miles between mesh nodes can be achieved. Participants will learn how to integrate Arduino and raspberry PI based systems, sensors and actuators into the mesh network. Once the mesh is Integrated with an open-source visualization, command and control server and coupled with Arduino, Android and microcomputer technology, the applications are limitless. • Understand and program self-hosted, open-sourced visualization servers • Track Smartphones around the mesh • Create Bluetooth based indoor tracking applications • Advance knowledge in networking and the language of the web • Construct high gain 2.4Ghz Antennas to increase the range of the mesh network • Create a mesh integrated sensor network Participants Completing this training will be able to:
COTS ARDUINO ESSENTIALS AIM The aim of this programme is to teach operators the skills required to build basic custom Arduino projects with a direct application for technical surveillance support. DURATION 5 DAYS
The Arduino Essential programme is the first in a series of Arduino courses and it is imperative to start the Arduino journey here, in order to learn more about its vast capabilities. Arduino is an open-source physical computing platform based on a self-contained inputs/outputs (I/O’s) board coupled with a simple development environment. It runs a basic programming language (Arduino C) that allows the user to perform any number of tasks from simple input output operations to more complex systems for processing data and performing actions. The Arduino Essentials course is designed for students with a basic understanding of electronics (COTS essential 1) and limited to no programming experience. Using breadboards and electronic components, this programme will teach operators a new programming language while fabricating practical surveillance based projects. Participants Completing this training will be able to: TRAINING OVERVIEW • Describe the Arduino ecosystem • Compile and run a program • Name C variables and operators • Use conditional loops • Explain the structure of an Arduino sketch. • Become proficient with the Arduino core library • Explain functions, their definition and invocation • Differentiate between analog and digital inputs and outputs • Debug embedded software
COTS ARDUINO INTEGRATION AIM The aim of this course is to instruct participants in the skills and knowledge required to integrate the Arduino microcontroller with COTS and military products in order to enhance, modify or repurpose their capabilities. DURATION 5 DAYS
TRAINING OVERVIEW This training programme is ideally taken directly after COTS Essential 1 or 2 as the projects manufactured during these modules can be integrated cost efficiently with the Arduino microcontroller. During COTS essential 1/2 programmes operators manufactured a plethora of projects by manipulating and modifying COTS equipment. Using an Arduino we can further update and upgrade the functionality of our products by acting on environmental triggers and automating actions. The Training team will present a new way of thinking about the possibilities and limitations of technical equipment and how we can break through restrictions by using the Arduino to integrate products together. All basics of the Arduino will be covered while integrating the techniques toward useful surveillance devices with increased capability and mission scope. • Install the Arduino Interactive Development Environment (IDE) • Name C Variable and data types • Name and use common C operands • Master Sensors and Actuators • Identify component parts of COTS and military equipment suitable for integration • Gain skills in the automation process of buttons and menus. • Create newly purposed surveillance devices through the integration process Participants Completing this training will be able to:
COTS ARDUINO COMMUNICATIONS FOR SURVEILLANCE AIM The aim of this programme is to give participants the necessary skills and knowledge on how the Arduino can communicate with other Arduino devices, connect to network infrastructure and become and Internet of Things (IoT) device. DURATION 5 DAYS
The Arduino Communications Course takes student's skills to the next level by using many shields and libraries allowing projects to log data, communicate with each other and interact with the internet. Students will learn how the Arduino is an incredibly flexible micro-controller and development environment that can be used to control devices and can also be used to read data from all kinds of sensors. Operators will be able to demonstrate how to use available Arduino platform hardware extensions and software libraries to enable wired and wireless communication with the Internet. Participants will experiment with the Arduino to gain an understanding of open hardware platforms capability to interact with the world of the Internet of Things (IoT). Operators will build on their previous knowledge and be able to: TRAINING OVERVIEW • Describe 3rd Party Libraries and how to use them • Achieve wireless communications between two Arduino devives • Gain knowledge in the languages of the Internet and IoT devices • Introduce participants to a plethora of communications methods using Arduino Shields. • Explain how the Arduino communicates with 3rd Party shields and break out boards • Successfully deploy open-sourced visualization command and control servers
COTS ARDUINO GSM/LTE AIM The aim of this course is to instruct participants in the skills and knowledge required to create GSM/LTE based surveillance projects using the Arduino microcontroller. DURATION 5 DAYS
TRAINING OVERVIEW GSM is the standard behind the second generation(2G) of wireless telephone technology. Although being phased out in the United States and the United Kingdom, it is still widely used in many countries. LTE stands for Long Term Evolution and is sometimes referred to as 4G LTE. Many Nation State surveillances devices rely on GSM /LTE for connection and data acquisition. The Arduino configured with the right hardware and programming can mimic the functionality of most surveillance devices on the market while maintaining deniability if found. The GSM/LTE course will begin with basic and output control via text messaging and progress to the construction of more complex devices covering the full surveillance spectrum. • Describe GSM’s digital progression. • Identify suitable GSM boards for use in mission specific areas • Identify GSM modem commands • Report and control devices through text messaging • Gain knowledge in communication protocols • Create visualization servers • Create mission specific surveillance devices with GSM reach back. Participants Completing this training will be able to:
COTS ARDUINO BLUETOOTH TECHNOLOGIES AIM The aim of this course is to instruct participants in the skills and knowledge required to create Blue Tooth based surveillance projects using the Arduino microcontroller. DURATION 5 DAYS
Bluetooth is a wireless personal area network technology. Bluetooth Low Energy (BLE) was designed and aimed at novel applications in the healthcare, fitness, and security industries. It allows devices to communicate at low power while maintaining high levels of security, at a low cost. The Arduino Bluetooth Course takes student’s advances operators Arduino knowledge by introducing them to the ESP 32 board which has built in Bluetooth and Wi-Fi Capabilities. Participants will work with various Bluetooth boards fit for distinct purposes within the field of Bluetooth and make specialized devices for use in clandestine operations. Operators will build on their previous knowledge and be able to: TRAINING OVERVIEW • Create Bluetooth Electronic Leashed devices using Bluetooth tags • Achieve Indoor/Outdoor Tracking using Bluetooth in GPS Denied Environments • Gain in depth knowledge of the Bluetooth communications protocol • Manufacture programable Bluetooth buttons
COTS ARDUINO IRIDIUM AIM The aim of this course is to instruct participants in the skills and knowledge required to create Iridium based surveillance projects using the Arduino microcontroller. DURATION 5 DAYS
TRAINING OVERVIEW Iridium’s unique satellite constellation architecture makes it the only network that covers 100% of the planet. Satellites are crosslinked to provide reliable, low-latency, weather-resilient connections that enable communication anywhere in the world. Over recent years Iridium modems have become available for the hobbyist with subscription and line rental at an affordable price, this has opened up unique opportunities for surveillance projects by allowing short burst communications in non –permissive environments. On the Iridium course the operators will learn the advantages and disadvantages in using iridium technology and entitles participants to design and produce their own iridium communication devices and view them on a self-hosted customizable web server. • Describe the Iridium Satellite Architecture • Identify Iridium modem commands • Create visualization servers • Report sensor data over the iridium network • Command and control Arduino devices using satellite communications methods • Create mission specific surveillance devices with global network connectivity Participants Completing this training will be able to:
COTS ARDUINO RF TECHNOLOGIES AIM The aim of this course is to instruct participants in the skills and knowledge required to create a plethora of Radio Frequency (RF) based devices using the Arduino microcontroller. DURATION 5 DAYS
A radio frequency (RF) signal refers to a wireless electromagnetic signal used as a form of communications. Devices communicate with each other over wireless networks via radio waves, a type of electromagnetic radiation which transmits data from one location to another. The Arduino Wireless RF Technologies course explores the wireless technologies and frequencies available for communications between Arduino devices. Our training team will present participants with numerous radio frequency communications methods at the same time as creating surveillance devices for use in Clandestine operations. Operators will build on their previous knowledge and be able to: TRAINING OVERVIEW • Describe the Electromagnetic Spectrum • Identify frequencies that can be used by commercial equipment • Understand the theory of antennas and RF propagation • Construct antennas to increase range of devices from every day items • Create multiple Arduino projects that can communicate using diverse radio communications methods
COTS ARDUINO ESP32 & ADVANCED PROGRAMMING AIM The aim of this course is to instruct participants in advanced skills and knowledge that is required master the Arduino ESP32 platform in order to create advanced devices for clandestine operations. DURATION 10 DAYS
TRAINING OVERVIEW The original Arduino boards were released in 2005 and although highly capable, are now considered old technology. The ESP 32 microcontroller is very different from the Atmel based chips in the original Arduino boards. However the developers (EXPRESSIF) have designed the ESP 32 to share 90% of the programming language and have already established Arduino libraries to be used on their microcontroller. The ESP 32 hosts onboard Wi-Fi, Bluetooth, touch sensors, and a much larger amount of memory which allows actions to be carried out which we were unable to achieve in the past, (such as encryption). The developer board hosts a large array of options including on board LORA, WAN, RF and IP cameras. This is not a board for beginners hence being at the end of the suggested COTS project pipeline. However when mastered participants will never look back at the standard Atmel based microprocessor. • Identify key feature of the ESP32 Board • Achieve complex memory intensive operations such as encryption • Create visualization servers • Purpose ESP devices to host stand alone servers • Create Mesh networks with multiple ESP device • Generate 2 dimensional facial recognition projects Participants Completing this training will be able to:
COTS ARDUINO LOW POWER WIDE AREA NETWORKS (LPWAN) AIM The aim of this course is to instruct participants in the skills and knowledge required to create Low Power Wide Area Networks (LPWAN) based devices using the Arduino microcontroller. DURATION 5 DAYS
Sigfox and LoRa are transmission technologies that are used in the Internet of Things (IoT) to network devices and transport data. They are often mentioned in the same breath because they have a lot in common. Both belong to the Low Power Wide Area Networks (LPWAN). This means they have low energy consumption and a long range (up to 40km outdoors) but can only transport small amounts of data. Operators will understand the fundamentals of Low Power Wide Area Networks (LPWAN) and be able to design projects using that infrastructure, for use within the surveillance arena. Participants Completing this training will be able to: TRAINING OVERVIEW • Understands LPWAN technologies • Create LPWAN sensor networks • Generate devices using the Sigfox network architecture • Produce equipment that adopts the LoraWan network • Describe Public and Private LoraWan Networks • Create multiple Arduino projects that can communicate using LPWAN technolgy
COTS RASPBERRY PI ESSENTIALS AIM The aim of this course is to provide beginners with a comprehensive understanding of the Raspberry Pi platform and enable them to effectively utilize it for various applications and projects with a direct application for technical surveillance support. DURATION 5 DAYS
TRAINING OVERVIEW The Raspberry Pi board is a miniature marvel, packing considerable computing power into a footprint not much larger than a credit card. Its capable of some amazing feats and is now the world's most popular embedded computer. This Raspberry Pi for Beginners course offers a comprehensive introduction to the versatile and cost-effective single-board computer. Participants will explore the various models and specifications of Raspberry Pi, as well as learn how to set up and configure their own systems. The course delves into the advantages of using Raspberry Pi over traditional computing methods, highlighting its potential applications in various fields. Throughout the course, students will engage in hands-on examples of code generation, focusing on Python programming and utilizing GPIO pins for input and output. They will also develop essential debugging and error-checking skills to ensure the successful execution of their Raspberry Pi projects. By the end of this course, participants will have a solid understanding of the Raspberry Pi platform and be well-prepared to embark on their own projects with confidence . • Select and install the Raspberry PI Operating System • Navigate through Linux with basic commands • Create basic Python programs • Automatically start applications • Demonstrate basic Bash scripting • Control Inputs and Outputs • Explore Surveillance and communications opportunities. Participants Completing this training will be able to:
COTS RASPBERRY PI TRACKING AIM The aim of this course is to instruct participants in the skills and knowledge required to create a configurable Raspberry Pi based tracking device that reports back to a self-hosted visualization server DURATION 5 DAYS
The Raspberry Pi Zero is one of the smallest members of the Raspberry Pi family but still packs a lot of features including WiFi and Bluetooth. This course introduces operators to the raspberry pi zero. With a small form factor the pi zero makes an excellent platform for tracking projects. As it is a programmable micro-computer operators will learn how to make custom trackers for any mission, create Geo-zones and control inputs and outputs automatically on entering or exiting them. Using a zero-trust rule for where we send sensitive data it is not optimal to visualize the tracking data on a 3rd party server. Participants will overcome this by creating their own customizable server application. Participants Completing this training will be able to: TRAINING OVERVIEW • Describe the Raspberry PI Family • Code in Python to extract GPS information • Explore bearer system options such as GSM, Wifi or other Radio Frequency (RF) • Design a visualization application to view detailed tracking information • Create Geo-Zones and automate actions on entrance/exit • Remote control Input and Output pins to add features such as fuel cut off switches
COTS RASPBERRY PI VIDEO AIM The aim of this programme is to teach operators the knowledge and skills required to build custom Raspberry Pi video projects for use in clandestine operations DURATION 5 DAYS
TRAINING OVERVIEW One of the benefits of Raspberry Pi is that it is not necessary to have an intimate knowledge of Linux or Python before beginning a project with Raspberry Pi. In fact, the purpose of the product is to teach the system and language through engaging projects. It is beneficial that participants complete the raspberry pi essentials first. The Raspberry pi video course will focus on how this microcontroller can be used for video projects in the surveillance arena. Our training team will instruct operators in camera selection, (network and USB ) Visualization server, choices, setup and options. Once the video/stills can be viewed participants will learn how to integrate sensors and actuators into the video system • Select mission specific Raspberry Pi compatible cameras • Construct standalone video surveillance systems with historic recording capability • Actualize motion detection recording • Produce video devices that are encrypted and connected over a virtual private network which can be visualized globally. • Understand complex parameters needed to record and view cameras over a network • Automatically start recording video on external triggers such as passive infrared • Establish email notifications Participants Completing this training will be able to:
COTS TECHNOLOGY FORCE PROTECTION AIM The aim of this course is to instruct participants in the skills and knowledge required to create a assorted COTS devices for force protection in a variety of non-permissive environments DURATION 5 DAYS
Force protection (FP) refers to the concept of protecting military personnel, family members, civilians, facilities, equipment and operations from threats and hazards in order to preserve operational effectiveness and contribute to mission success. Deployed forces encounter a large variety of threats. Securing the theatre is vital to keep operators safe and to protect critical assets. The COTS FP Technology course provides projects suited for Force Protection operations that concentrate on the networking of sensors and actuators. All projects are explained, and the relevant electronic theory taught to enable solid understanding and facilitate circuit manipulation to suit mission requirements Participants Completing this training will be able to: TRAINING OVERVIEW • Establish self forming self healing mesh networks • Integrate overt and covert FP cameras into the network • Create human detection sensors and triggers such as: • PIR • Active IR • Pressure Plate • Seismic • Motion • Fashion COTS remote initiators for M18 anti-personnel devices
COTS ANDROID AUTOMATION AIM The aim of this Android Automation course is to empower operators to unlock the full potential of their Android phone as a surveillance device through automation. DURATION 5 DAYS
The modern cellular phone is equipped with a wealth of sensors and actuators that can be utilized for both surveillance and communication. Android, a mobile operating system based on a modified Linux kernel and open-source software, offers impressive depth and versatility. Typically, we access the features of our device through pre-installed or downloaded apps, such as opening the camera or sending a text. In the Android Automation course, operators will learn how to unlock the full potential of their Android phone as a surveillance device through automation. Automation allows the phone to perform predefined actions based on specific conditions. For instance, a simple shake of the phone could trigger a series of events, such as turning on the GPS module, retrieving the active GPS position, sending the GPS information via text or email to predefined recipients, turning off the GPS, and locking the phone. As a general principle, if a task can be performed through a series of operations on our phone, there is a high likelihood that we can automate that sequence of tasks using automation apps, giving us the power to create our own apps without programming skills. Participants will learn how to automate a series of tasks and actions on their device, allowing them to create custom apps and solutions without programming skills. The course will cover the basics of Android Automation and provide hands-on examples of how to utilize the sensors and actuators in the modern cellular phone for surveillance and communication purposes. By the end of the course, participants will have a strong understanding of how to use Android Automation to enhance their device's functionality and performance. TRAINING OVERVIEW
COTS DRONE WEAPONRY AIM The aim of this course is to equip students with the skills and knowledge needed to modify commercially available drones into effective weapons for immobilizing small-scale targets, as well as enhancing communication capabilities through the modification of payloads. DURATION 5 DAYS
TRAINING OVERVIEW Over the past 20 years, there has been a significant increase in the use of airborne drones by both private individuals and commercial organizations. This surge in popularity can be attributed to advancements in drone technology, such as smaller motors, increased power output, and higher energy capacity of drone batteries. These developments have led to the production of much smaller, more affordable drones for commercial use. However, this increased accessibility to drone technology has also led to concerning incidents where drones have been used to deliver weapons to specific targets without risking the perpetrators. Such actions have allowed less-funded groups and nations to cause significant damage to security, economic, and other vital installations. Through a series of projects, students will learn about drone payloads, modification techniques, and payload dropping techniques, as well as the use of kamikaze drones and drone-delivered IEDs. By the end of the course, students will have a comprehensive understanding of how to use drones for various purposes, including security and communication.
COTS ARDUINO AI AIM The aim of this course is to provide a comprehensive introduction to using ChatGPT for writing code for Arduino projects. Participants will learn how to use ChatGPT to generate code snippets and complete code blocks for Arduino, as well as how to integrate libraries and functions. Through hands-on examples and practical exercises, participants will develop a strong understanding of the benefits of using ChatGPT for writing Arduino code, including increased efficiency, improved accuracy, and enhanced productivity. By the end of the course, participants will be able to confidently use ChatGPT to simplify the code writing process for their Arduino projects. DURATION 5 DAYS
TRAINING OVERVIEW ChatGPT simplifies the process of writing code for Arduino projects by automating many of the repetitive and time-consuming tasks involved in writing code from scratch. ChatGPT's natural language processing capabilities allow it to understand the requirements for an Arduino project and generate corresponding code snippets or complete code blocks. This can greatly reduce the time and effort required to write code for Arduino projects, allowing developers to focus on higher-level tasks such as design and problem-solving Throughout the course, participants will develop a range of skills and knowledge, including the ability to generate code snippets and complete code blocks for Arduino projects, integrate libraries and functions into Arduino code, and evaluate the benefits of using ChatGPT for writing code for Arduino. The course will cover these topics through hands-on examples and practical exercises, allowing participants to apply their newfound skills and knowledge to real-world projects. By the end of the course, participants will be able to confidently use ChatGPT to write code for a range of Arduino projects. They will have the skills and knowledge necessary to effectively use ChatGPT to simplify the code writing process and will be equipped with the tools and resources needed to create their own Arduino projects using ChatGPT. The course will provide participants with a comprehensive understanding of how to use ChatGPT for writing code for Arduino projects, making it a valuable learning experience for anyone interested in this field. • Understand the basics of using ChatGPT for writing code for Arduino projects. • Generate code snippets and complete code blocks for a variety of Arduino projects using ChatGPT. • Integrate libraries and functions into Arduino code using ChatGPT. • Evaluate the benefits of using ChatGPT for writing code for Arduino projects, including increased efficiency, improved accuracy, and enhanced productivity. • Use ChatGPT to simplify the code writing process for a range of Arduino projects. • Apply the skills and knowledge gained in the course to create individual Arduino projects using ChatGPT. Participants Completing this training will be able to:
COTS SAFEHOUSE SECURITY AIM The aim of the Liberty Alliances' Safe House Security Course is to provide operators with the knowledge, skills, and confidence necessary to create and maintain secure environments for themselves and individuals in their care while remaining anonymous. DURATION 5 DAYS
A safe house serves as a highly secure location, accessible only to a select group of trusted individuals, providing refuge for agents or others facing potential threats. In hostile environments, operators may need to occupy a location covertly and ensure its safety. Establishing robust early warning systems is crucial in case the safe house becomes compromised. Liberty Alliances' Safe House Security Course now also includes training on maintaining anonymity online, ensuring the utmost protection of individuals and operations. This comprehensive course is designed to equip operators with a diverse range of skills, empowering them to navigate complex security challenges effectively. Key Training Objectives include: TRAINING OVERVIEW • Developing the ability to identify and secure a suitable safe house location. • Establishing reliable early warning alarm and monitoring systems using the COTS concept. •Implementing strategies to maintain anonymity and secure communication in the digital landscape. • Acquiring the skills to respond swiftly and appropriately to compromised safe house situations. • Gaining practical experience through realistic training scenarios and simulations.
COTS ARDUINO AI AIM The aim of this course is to provide a comprehensive introduction to using ChatGPT for writing code for Arduino projects. Participants will learn how to use ChatGPT to generate code snippets and complete code blocks for Arduino, as well as how to integrate libraries and functions. Through hands-on examples and practical exercises, participants will develop a strong understanding of the benefits of using ChatGPT for writing Arduino code, including increased efficiency, improved accuracy, and enhanced productivity. By the end of the course, participants will be able to confidently use ChatGPT to simplify the code writing process for their Arduino projects. DURATION 5 DAYS