We often hear the phrase, "The more you put in, the more you get out." Nowhere is this truer than our Airborne Sensor Operators Group (ASOG). So why participate, and how do you get involved?

As a dynamic and growing community, the strength and vibrancy of our association depend on the active engagement of every member, follower, and connection. Your participation is crucial whether you're a seasoned operator or a newcomer. Let's explore why getting involved is beneficial and how you can maximize your ASOG membership.

Why Participation Matters

Networking Opportunities:

• Make Connections: By attending meetings, webinars, and events, you have the chance to connect with industry leaders, peers, and mentors. These connections can lead to new opportunities, collaborations, and lifelong friendships.
• Build Relationships: Engaging in discussions and activities helps build strong professional relationships that can support your career growth.

Knowledge Sharing:

• Stay Informed: Participating in ASOG activities informs you about the latest trends, technologies, and best practices in the airborne sensor operator field.
• Share Expertise: Your experiences and insights are valuable. By sharing your knowledge, you contribute to the collective wisdom of our community, helping others learn and grow.

Professional Development:

• Skill Enhancement: Involvement in ASOG's training sessions, workshops, and seminars can enhance your skills and knowledge, keeping you at the forefront of the industry.
• Career Advancement: Active members often gain recognition for their contributions, opening doors to new career opportunities and advancements.

Influence and Impact:

• Shape the Future: By voicing your opinions and participating in decision-making processes, you help shape the direction and focus of our association.
• Give Back: Contributing your time and talents to ASOG initiatives and committees allows you to give back to the community and support the growth and development of fellow members.

How to Get Involved

Attend Events: Make it a point to participate in ASOG meet-ups, webinars, and conferences. These events are prime opportunities to learn and network.

Join Working Groups: Consider joining one of ASOG's working groups. Whether it's event planning, member outreach, or technical standards, your skills and ideas are needed.

Contribute to Discussions: Engage in online forums, social media groups, and discussion boards. Share your experiences, ask questions, and provide support to other members.

Volunteer: Offer your time for ASOG initiatives and projects. Volunteering is a great way to make an impact and gain new experiences.

Stay Connected: Regularly check the ASOG website and newsletters for updates, opportunities, and calls for participation. Staying informed helps you seize every opportunity to get involved.

A Community Built on Participation

Remember, ASOG is more than just an association; it's a community built on the active participation of its members. The more you engage, the more you benefit personally and professionally. By contributing your time, knowledge, and enthusiasm, you help create a richer, more dynamic ASOG that serves all its members better.

So, don't just be a member—be an active participant. Dive in, get involved, and experience the full benefits of your ASOG membership. We can achieve great things together and take our industry to new heights.

ASOG 2022 Focus Area: Industry Support

Posted By: ASOG Desk Editor

We are thrilled to announce that First Aerospace Law has joined us as a new ASOG Corporate Supporter! It’s an honor to welcome a corporate supporter dedicated to aviation law and insurance.

First Aerospace Law primarily provides law and insurance services to various clients within the aerospace and aviation industries. Additionally, the company offers strategic consulting and business development services to help organizations navigate the complex aerospace market, enhance operational efficiency, and drive growth through tailored solutions. These services include market analysis, strategy formulation, process improvement, regulatory compliance, and support in mergers and acquisitions. Through its editorial services, First Aerospace Law has significantly expanded its expertise and influence within the aerospace sector.

To learn more about First Aerospace Law and their services, visit the ASOG Corporate Supporter page and click their logo. You can also connect with Ian Sheppard, First Aerospace Law founder, by sending him a message via the ASOG email service or on LinkedIn (linkedin.com/in/ian-sheppard-6606855)

In the dynamic field of airborne sensor operations, where split-second decisions and technical expertise can make all the difference, continuous career building learning is not just advantageous but essential. However, what do you do if you can’t participated in formal or traditional approaches?

ASOG Focus Area | Career Management

Source | ASOG Safety Center

For those aspiring to become proficient ASOs without access to formal career enhancing programs, there are myriad strategies and resources available to bridge the knowledge gap and develop critical skills.

This article explores practical approaches to independent learning, encompassing self-study techniques, simulation tools, networking opportunities, and hands-on practice. By embracing these methods, individuals can proactively enhance their capabilities and readiness, ensuring they are well-prepared for the challenges and responsibilities of airborne sensor operations. Here are some strategies to help fill the gap:

1. Self-Study and Online Resources

• Online Courses: Enroll in online courses related to sensor operations, aviation safety, and emergency procedures. Websites like Coursera, Udemy, and Khan Academy offer relevant courses.
• Technical Manuals: Study the technical manuals and operational guides for the sensors and equipment you use. These often provide detailed information on operation, troubleshooting, and best practices.
• Webinars and Online Seminars: Participate in webinars and online seminars conducted by experts in the field. These can offer valuable insights and updates on the latest industry practices.

2. Simulation Software

• Flight Simulators: Use flight simulation software to practice sensor operations and emergency procedures. Programs like X-Plane or Microsoft Flight Simulator can provide realistic practice environments.
• Scenario Simulations: Create and run various emergency scenarios to practice your responses and decision-making processes.

3. Networking and Mentorship

• Industry Forums: Join online forums and communities related to airborne sensor operations (e.g., ASOG) and aviation. Engage with other professionals to exchange knowledge and experiences.
• Find a Mentor: Seek out a mentor who has experience in airborne sensor operations. A mentor can provide guidance, share practical tips, and help you navigate complex situations.

4. Field Practice

• Practical Experience: If possible, gain practical experience by volunteering for missions or projects that require sensor operations. Real-world practice is invaluable.
• Hands-On Projects: Work on personal or collaborative projects that involve the use of airborne sensors. This could include participating in research projects, environmental monitoring, or other applications.

5. Reading and Research

• Aviation Books and Journals: Read books, journals, and articles related to aviation, sensor technology, and specific Aerial Work aviation sectors, e.g., Aerial Surveying, Police aviation, Electronic Warfare, etc. Staying updated with the latest literature can enhance your theoretical knowledge.
• Case Studies: Study case studies of real-life emergency situations involving airborne sensor operators. Analyze the actions taken and the outcomes to learn from past experiences.

6. Physical and Mental Preparation

• Physical Fitness: Maintain physical fitness through regular exercise. Physical endurance can be crucial during emergencies and survival situations.
• Stress Management: Practice stress management techniques such as mindfulness, meditation, and breathing exercises to maintain composure during high-pressure situations.

7. Skill Development Workshops

• Workshops and Conferences: Attend workshops and conferences whenever possible. These events often provide hands-on training and the opportunity to learn from industry experts, e.g., ASOG Training Weeks.
• First Aid and Survival Training: Take courses in first aid and survival skills. These skills are essential in emergency situations and can often be learned through local organizations like the Red Cross.

8. Documentation and Self-Assessment

• Training Logs: Keep a detailed log of your self-study and practice sessions. Document what you’ve learned, areas of improvement, and scenarios practiced.
• Self-Assessment: Regularly assess your skills and knowledge. Identify any gaps and create a plan to address them through additional study or practice.

9. Use of Open-Source Data and Tools

• Open-Source Software: Utilize open-source software for data analysis and sensor operation simulations. Tools like QGIS and Python can be useful for practicing data analysis and processing.

By leveraging these resources and strategies, you can effectively build your knowledge and skills as an airborne sensor operator, even in the absence of formal training. Dedication to continuous learning and practical application will ensure you remain proficient and prepared for any challenges you may face.

Simulator training is a cornerstone of effective preparation for ASOs and aircrews, providing a safe and controlled environment to hone skills, practice emergency procedures, and build confidence. So, how do you maximize your time in the simulator?

ASOG Focus Area | Training & Education

Source | ASOG Training Center

Simulators have become increasingly sophisticated as technology advances, offering realistic scenarios that closely mimic actual flight conditions. However, operators must approach each session with a strategic mindset and a commitment to continuous improvement to reap the full benefits of this powerful training tool.

This article explores the best practices for maximizing the effectiveness of simulator training for airborne sensor operators. From understanding training objectives, engaging fully during sessions, leveraging advanced technology, and seeking constructive feedback, we will delve into actionable strategies to enhance performance and preparedness. By following these guidelines, sensor operators or any aircrew member can ensure they are ready to get the most out of their training.

1. Understand Training Objectives

• Know the Goals: Be clear on what each training session aims to achieve, whether handling specific emergencies, mastering equipment, or improving decision-making skills.
• Pre-Session Briefing: Participate in pre-simulation briefings to understand the scenario and expected outcomes.

2. Engage Fully During Training

• Active Participation: Treat each simulation as if it were a real scenario. Engage fully with the controls, communications, and decision-making processes.
• Stay Focused: Minimize distractions and maintain concentration throughout the simulation to mimic real-life conditions.

3. Practice Regularly

• Frequent Sessions: Regularly scheduled simulator sessions help reinforce skills and knowledge, ensuring proficiency over time.
• Diverse Scenarios: Practice a wide range of scenarios to prepare for various possible emergencies, including common and rare events.

4. Develop and Refine Skills

• Technical Proficiency: Focus on mastering the technical aspects of sensor operations, such as adjusting settings, interpreting data, and troubleshooting equipment issues.
• Emergency Procedures: Drill emergency protocols until they become second nature, ensuring rapid and accurate responses during actual events.

5. Team Coordination and Communication

• Team Drills: Practice scenarios that involve coordination with other crew members to enhance teamwork and communication skills.
• Clear Communication: Work on maintaining clear and effective communication with the team, especially under stressful conditions.

6. Seek Feedback and Reflect

• Debriefing Sessions: Participate in thorough debriefings after each simulation to review performance, discuss what went well, and identify areas for improvement.
• Self-Assessment: Reflect on your performance and identify personal strengths and weaknesses.

7. Simulate Real-World Conditions

• Realistic Scenarios: Ensure simulations are as realistic as possible, incorporating potential variables like weather conditions, equipment failures, and unexpected obstacles.
• Stress Management: Use techniques to manage stress and maintain composure, mimicking the pressure of real-life situations.

8. Leverage Advanced Technology

• Utilize VR/AR: Incorporate virtual reality (VR) or augmented reality (AR) to enhance the realism of training scenarios.
• Stay Updated: Keep up-to-date with the latest simulator technology and software advancements to ensure cutting-edge training experiences.

9. Prepare for Each Session

• Pre-Session Study: Review relevant materials and procedures before each simulation session to refresh your knowledge.
• Scenario Planning: Anticipate potential challenges and think through possible responses in advance.

10. Document and Review Performance

• Training Logs: Keep detailed logs of each training session, noting specific scenarios, responses, and outcomes.
• Review Records: Regularly review training logs to track progress and identify trends in performance.

By following these strategies, you can make the most out of simulator training, enhancing your skills and preparedness as an ASO.

In the high-stakes world of aviation, preparedness is paramount, especially for Airborne Sensor Operators and aircrew who must navigate various complex and potentially dangerous situations. So, how do you prepare for such moments?

ASOG Focus Area | Aviation Safety

Source | ASOG Safety Center

From equipment malfunctions to severe weather, the ability to respond swiftly and effectively to emergencies can mean the difference between life and death. Proper training is not just a regulatory requirement but a critical component of operational success and safety.

This article delves into essential training strategies to equip ASOs and aircrews with the skills and knowledge necessary to handle emergencies. By exploring comprehensive classroom instruction, immersive simulator training, hands-on drills, and survival skills, we provide a roadmap for building resilience and readiness.

Additionally, we highlight the importance of continuous learning and physical fitness in maintaining peak performance. Whether you're a seasoned professional or new to the field, these strategies will help ensure you are prepared for any challenge that arises in the air.

1. Classroom Training

• Emergency Procedures: Detailed lessons on aircraft emergency procedures, including how to handle in-flight emergencies, equipment malfunctions, and other critical situations.
• Survival Theory: Teach the principles of survival in different environments (e.g., arctic, desert, jungle, ocean).

2. Simulator Training

• Flight Simulators: Advanced flight simulators are used to replicate emergency scenarios, allowing operators to practice response procedures in a controlled environment.
• Virtual Reality (VR) Training: Incorporate VR to simulate various emergencies, enhancing realism and providing hands-on experience without the risks associated with real-life training.

3. Hands-On Drills

• Emergency Evacuation: Conduct regular drills on emergency evacuation procedures, including rapid egress from the aircraft and use of emergency exits.
• Firefighting Training: Train on handling in-flight fires, using fire extinguishers, and managing smoke.
• Ditching Procedures: Practice ditching scenarios for water landings, including life raft deployment and water survival techniques.

4. Survival Skills Training

• Water Survival: Training on how to survive in open water, including using life vests, life rafts, and signaling devices.
• Land Survival: Instruction on finding food and water, building shelters, and navigating safely in various terrains (desert, jungle, arctic).
• Medical Training: Basic first aid and advanced medical skills, including handling common injuries and illnesses encountered during survival situations.

5. Scenario-Based Training

• Role-Playing Exercises: Simulate different emergency scenarios with role-playing to practice decision-making and teamwork under stress.
• Multi-Scenario Drills: Combine various emergency situations (e.g., equipment failure followed by an emergency landing) to enhance adaptability and problem-solving skills.

6. Physical Fitness

• Fitness Programs: Maintain physical fitness through regular exercise, as physical endurance is crucial during emergencies and survival situations.
• Stress Management: Techniques to manage stress and maintain calm during emergencies, such as mindfulness and breathing exercises.

7. Equipment Familiarization

• Emergency Equipment: Regular training on using emergency equipment, including parachutes, life rafts, survival kits, and emergency radios.
• Maintenance Checks: Routine checks and drills to ensure all emergency equipment is in working order, and operators are proficient in using them.

8. Team Coordination

• Communication Skills: Training on effective communication during emergencies within the aircraft and with ground control or rescue teams.
• Leadership Training: Develop leadership skills to effectively manage and coordinate the team during crises.

9. Regular Refresher Courses

• Ongoing Training: Regularly scheduled refresher courses to keep skills up-to-date and address any changes in procedures or equipment.
• Continuous Improvement: Debrief after drills and actual incidents to identify lessons learned and improve training programs.

10. Emergency Plans and Procedures Review

• Standard Operating Procedures (SOPs): Regularly review and update SOPs to ensure they reflect current best practices and technologies.
• Scenario Debriefing: Detailed debriefing sessions after training exercises to discuss performance areas of improvement and reinforce learning points.

By incorporating these elements into their training programs, ASOs and aircrew can be better prepared to handle emergencies effectively, ensuring their safety and that of their passengers or mission objectives.

Livorno, June 27^th, 2024 -  FlySight is pleased to announce the expansion of its commercial network, including new presence and sales representatives in India and now also in Malaysia. Another step towards this growth has indeed been made with the signing of a strategic collaboration agreement with Sovereign Strategic, a renowned systems integrator specializing in special missions platforms, serving the Malaysian Defence Sector with optimum solutions since 2018.

Sovereign Strategic, with its portfolio of industry-leading products and technology, is dedicated to addressing the evolving Defence needs of Malaysia and contributing to local industry development. The addition of FlySight's OPENSIGHT system to Sovereign Strategic's portfolio signifies a significant advancement in providing proven, battlefield-tested systems that offer optimal cost-benefit options to its customers.

FlySight's commitment to expanding its global presence is further demonstrated by the opening of new commercial presence in India and Malaysia. This move, supported by local distributors and agents, underscores FlySight's dedication to providing cutting-edge Defence & Security solutions tailored to local needs.

The collaboration with Sovereign Strategic is part of FlySight’s broader strategy to enhance its market presence. Earlier this year, FlySight also signed a strategic partnership with Suretech International, a leading technology sourcing company in India led by Mr. R.K. Chanana, which has bolstered its footprint in the Indian market.

Commenting on the expansion, Andrea Masini, CEO at FlySight, stated, “FlySight is strengthening its network and collaborations to provide a more extensive global market presence. Our recent collaboration with the Malaysian systems integrator specializing in special missions platforms represents a step towards our commitment to delivering cutting-edge technological solutions to serve the evolving needs of the Defence & Security Industry.”

By establishing a stronger commercial network and forging key partnerships, FlySight is poised to meet the growing demand for advanced Defence & Security solutions worldwide.

Ezra Effendi, Group Managing Director at Sovereign Strategic, declares: “FlySight as a product addresses so many of the challenges and mission requirements of modern defence forces operating special mission Aircraft and UAV platforms. We were looking for a proven product to offer the Malaysian Defence & Security forces, and were impressed that the FlySight offering was either on par and in many respects superior to products from the large US and European OEMs. When our customer can see what FlySight can do, we are confident that FlySight is going to be the software of choice for the Malaysian Defence & Security agencies.”

Sci-fi writers and animators have talked about and sensationalized air taxis for decades. We occasionally hear some headlines relating to the developments being made around the world - Vertical Aerospace, Lilium, Volocopter, EHang, Airbus, Rolls-Royce, Urban Aeronautics, AeroMobil, Samad Aerospace, Ascendance Flight Technologies, to name a few from around Europe. So when will we see an automated air-Uber whizzing overhead?

Back to the Future

We saw the UAV industry gain momentum after 2010. The trajectory of the UAV sector legislation, licensing, and standardization was far behind the curve of the technology available until (subjectively) around 2016 to 2018 - the proliferation and affordability of consumer-grade drones grew rapidly, leading to multiple infringements of airspace, dangerous flying in and around airports, a general distaste for them (residents citing people spying on them with impunity, drones affecting wildlife in sensitive areas, etc). Some casual (private) UAV pilots, even though it's ok to get near commercial aircraft on approach or land on an aircraft carrier in dock.

None of this was good press for the sector, so repairs need to be made to this image. For what will likely become a multibillion-dollar industry in the public and military sectors alike, multirotor and eVTOL transition aircraft will cause controversy. Ten years ago, commercial UAV operators knew that the system of laws and the public's understanding of risk mitigation was lacking, with the list of incidents illustrating that perfectly - yet the authorities were glacially slow in implementing safeguards, with only a handful of successful fines being issued for infringements. Only recently have we seen some positive progress in this area.

The EASA/FAA and country-specific aviation authorities have roadmapped far ahead to the 2030s and beyond, once again conjuring up images of a 'Jetsons-like' future, with drones zooming around delivering food, medicine, people, cargo all around us all the time.

Current Reality

The current reality is that commercial pilots operate safely, but many private individuals still do not. Companies designing and building eVTOL and large UAVs for ISR work deliver on a technical level. Still, the tardiness of the authorities has led to a slow uptake and accommodation for them in terms of airspace, type ratings, and certification, despite the technology being showcased and demonstrated at air shows around the world - and largely still illustrating what's coming through swish CGI images and marketing videos.

With advances in battery technology, increasingly sophisticated flight control algorithms, and more powerful and energy-efficient onboard computing, these new eVTOL aircraft are rapidly becoming the most computationally advanced flying machines ever created.

In terms of automated or remotely piloted flights, considerable work remains to be done regarding legislation, airspace settings, control, and unified traffic management to allow general aviation to continue to operate. For example, low-level flights around cities will be subject to intense scrutiny and, ideally, will see a level of decorum in where they operate and how frequently. Noise abatement will likely become a hot topic. Where they take off, and land will also be (in principle) wide open, given the landing footprint is so small; however, it will take some convincing to have a pad built near your house if there wasn't one before! The public reaction to automated, large drone-like aircraft flying overhead will no doubt be a challenge - as such, the authorities are planning public consultations, rigorous certification, and media-led demonstrations, proving that the introduction of eVTOL systems is safe. They shouldn't be any more of a nuisance than a helicopter we would usually see flying around.

Infrastructure is already being procured at strategic sites in some cities. Therefore, the ultimate goal of large-scale integration with existing air traffic control and command systems is nearer since the routes become more crystallized and the airspace integration pattern becomes clearer. The name 'eVTOL' may even be altered in publications to make the aircraft classification more semantically accessible to the general public.

With that Said

To the best of our knowledge, an automated eVTOL in flight can't yet respond to a verbal call from ATC to maneuver and do it accurately and reliably - there still remains a need for a 'pilot' somewhere in the loop. This is the area that needs considerable research and testing, although there are small UAVs that are demonstrating exceptional AI flight capabilities already.

So, despite the current barriers to business, startup, and existing aircraft manufacturers companies are, in a broad sense, ready to go - but there are no concrete dates set for operations to begin, despite the large investments being made. The future of air taxi services is still looking bright. The closest we have to a regular hop-on-hop-off taxi service might be in Dubai, which may be by the end of 2025. Here's hoping it's an affordable, safe, green, and clean way to get around before too long!

About the Author

Sam Barnes | Sam brings a unique range of industry experience and commercial UAV operations, attending the ASOG training courses more recently and gaining insights into the future of ISR. With remote sensing experience that dates back to 2015, Sam helped get the UK's Drone Safe Register started while running his own commercial UAV operations for the Lowland Search and Rescue and pioneering architectural, wildlife, and environmental mapping techniques using automated and manual flights. After completing a Master's in Drone Technology, he worked with large sensor arrays for environmental impact assessments and accrued 2500 flight hours.

His passion is next-generation equipment, particularly the science behind it, with a particular interest in system integration and its user relationship. More recently, he's been steering back towards UAV and RPAS work, focusing on the Future of Flight program in the UK.

ASOG Focus Area | News & Information, Training & Education

Source | ASOG Desk Editor

The ASOG Airborne Mission Management Systems & Sensors Course, held from May 30 to May 31, 2024, in Wiener Neustadt, Austria, provided participants with an intensive and comprehensive learning experience. With a diverse group of instructors from ASOG, FlySight, Centum, Safran, and Smith Myers, the course aimed to enhance the skills of Airborne Sensor Operators (ASO) and non-rated aircrew. This special report summarizes the key takeaways and highlights the impact of the training.

Day 1 Highlights

The first training day set the stage with foundational lectures and networking opportunities.

Opening Session - The day began with sign-in, coffee, and refreshments, allowing participants to network. Patrick Ryan (ASOG), Mattia Carpin (FlySight), and Georg DeCock (Airborne Technologies – Facility Host) welcomed the attendees, setting a collaborative tone.

Airborne Sensor Operators Work Environment – George DeCock (Airborne Technologies) provided an outstanding lecture on fundamental working challenges, principles, and practices related to Airborne Sensor Operators. George's lecture included everything from past, present, and future perspectives blended with informative case studies and examples.

Mission Management Systems - Mattia Carpin (FlySight) introduced the theory of mission management systems and associated sensors. The session provided insights into integrating and applying technologies like EO IR radar and mobile phone detection with AI mission management systems.

EO/IR (EOS) Systems – Rolland Frederic (Safran-Defense) provided a lecture highlighting the technology and capabilities of EO/IR (EOS) systems. The lecture covered the basic science of EOS and the components that make up any airborne EOS.

Mobile Phone Detection Systems - The lecture by Sindo Recimil (Centum-LifeSeeker) on the basic science behind mobile phone detection systems, using LifeSeeker as a case study, was particularly enlightening.

Mission Planning and Sensor Management - In the afternoon, Mattia Carpin covered mission planning, task assignment, and using the OPENSIGHT Mission Console, emphasizing augmented reality and data fusion.

Practical Applications - Ewan MacDonald from Smith Myers discussed the role of mobile phone detection in multi-mission operations, highlighting real-world applications in SAR and firefighting using ARTEMIS as a case study.

Day's End Review - Patrick Ryan concluded the day with a review session, preparing participants for Day 2.

The day ended with a social and networking event sponsored by FlySight, fostering connections among 20 ASOG local area members, course attendees, and guests. Additionally, the ASOG staff provided abundant refreshments and lunches throughout each training day.

Day 2 Highlights

The second day focused on hands-on practice and deeper exploration of airmanship principles.

Airborne Sensor Operators Work Environment – George DeCock continued his lecture on the work environment of an ASO.

Training Laboratory – Probably the highlight of the course, participants engaged in practical sessions, rotating through four training stations:

• Cell Phone Locator System (Centum - LifeSeeker)
• Mission Management System (FlySight)
• EO/IR Sensor (Safran-Defense)
• Cell Phone Locator System (Smith Myers)

These sessions provided hands-on experience, allowing participants to apply theoretical knowledge in simulated environments.

Closing Session - The course concluded with a comprehensive review, a survey to gather participant feedback, and closing remarks by the instructors.

Key Takeaways

• Enhanced Skills and Knowledge - Participants gained a thorough understanding of mission management systems, sensor management, and mobile phone detection technologies.
• Practical Experience - The training laboratory sessions were valuable, providing practical, hands-on experience.
• Networking and Collaboration - The training's social events and collaborative nature fostered valuable professional connections.

Participant Feedback

Feedback from the participants was overwhelmingly positive. Many highlighted the instructors' depth of knowledge and practical applicability of the skills learned. One participant noted, "The hands-on sessions were incredibly beneficial, providing real-world applications to the theoretical knowledge we gained."

Future Applications

The skills and knowledge acquired during this course directly apply to various operations, including search and rescue, firefighting, and intelligence gathering. Integrating advanced sensor technologies and mission management systems will undoubtedly enhance operational effectiveness in these areas.

Conclusion

The Airborne Mission Management Systems & Sensors Course was a resounding success, providing participants with valuable knowledge, practical skills, and professional connections. The ASOG Team looks forward to seeing the positive impact of this training on future operations and is excited about the continued advancements in airborne mission management technology.

To conclude, this course would not have happened if it was not for the support of ASOG volunteers (Tanja Wimmer-Ryan, Benjamin Kabelik, Patrick Ryan), our core Sponsors FlySight (Marina Ghidotti, Mattia Caprin), Airborne Technologies (Katrin Gruber, George DeCock) and their partners Smith Myer (Ewan MacDonald, Peter Myers, Andrew Munro), Safran-Defense (Frederic Rolland), Centum-LifeSeeker (Sindo Recimil)…and without a doubt the students who attended! It was a great learning experience for everyone!

Sponsors & Partners

ASOG Focus Area | News & Information

Source | ASOG Desk Editor

PAvCon Europe 2024, held from May 27-29 at Airborne Technologies in Wiener Neustadt, Austria, successfully brought together leading experts and professionals from the police aviation sector to include many ASOG members. The conference, known for fostering advancements in airborne public order & safety support, featured various technical presentations, hands-on demonstrations, and invaluable networking opportunities.

Presentation Highlights

The conference kicked off with compelling keynote addresses and followed with engaging presentations that set the tone for the event. This year's conference presentation lineup included a healthy balance of leading-edge technology and operational themes. Some of the highlighted presentations were:

• Representing Diamond Aircraft, Stefan Haim engaged the audience with insights into the DA62 MPP's capabilities in modern ISR operations. His presentation underscored the aircraft's adaptability and effectiveness in various missions.
• Oliver "Ollie" Dismore from the European Helicopter Association delivered an impactful session on initiatives in European law enforcement aviation, highlighting initiatives aimed at matching the needs of future public policy and police aviation operations.
• Andrew Munro from Smith Myers discussed advancements in mobile phone detection technology, showcasing the award-winning ARTEMIS suite. His presentation emphasized the critical role of this technology in SAR and law enforcement operations.

Sessions and Workshops

PAvCon Europe 2024 offered a robust lineup of sessions and workshops that delved into the latest technologies and operational strategies.

• Harald Brink, an active member of the Dutch Police Air Support Unit, led a full day of training for attending officers on the first day of the conference. The training consisted of operational topics related to best practices regarding technology and aircrew operational best practices.
• Mattia Carpin from FlySight Srl demonstrated "OPENSIGHT Unleashed" on the exhibit floor so attendees could explore the integration and capabilities of a modular decision support system, i.e., a mission management system. The focus was on how open integration can enhance sensors and PED systems, demonstrating significant potential for operational efficiency.
• Airborne Technologies provided demonstration flights with their de Havilland Canada DHC-6 Multi-Mission Twin Otter on days two and three. Delegates could experience the capabilities of this special ops platform live, i.e., the operation of the LINX system and SCAR Pod in a real-world environment.
• Besides demonstration flights, Diamond Aircraft conducted a min airshow on day three for delegates to observe the capabilities of their new DA62 MPP. Additionally, the DA62 MPP, thoroughly equipped for special missions, was displayed for delegates to put their eyes and hands on.

Networking and Exhibitions

One of the core strengths of PAvCon Europe is its emphasis on networking and collaboration.

The exhibition hall was a hub of activity, with leading companies such as Safran-Defense and Nova Systems displaying their latest innovations, services, and capabilities. Attendees had the opportunity to engage with these technologies firsthand, gaining insights into how they can be applied in real-world scenarios.

Throughout the three days of the conference, the networking sessions facilitated connections between international colleagues, industry leaders, and sales representatives, fostering collaborations that are expected to yield long-term benefits for the police aviation community.

Special Features

This year's conference was honored with the contributions of notable figures in the police aviation field. Besides Bryn Elliott, the master-mind behind PAvCon, other notable attendees were:

• Glenn Daley (Veteran of the NYPD Aviation Unit)
• Bill Probets (Sergeant/Chief Pilot at East Bay Regional Parks Police - Retired)
• Terry Miyauchi (veteran U.S. Army and The Arizona Department of Public Safety – Aviation Services)

Beyond a doubt, their sessions and mentorship on the exhibition floor provided deep insights into the practical challenges and innovations in police aviation.

Summary

As you can see, PAvCon Europe 2024 reaffirmed its status as a vital platform for advancing police aviation. The blend of expert knowledge, cutting-edge technology, and collaborative spirit promises to drive the industry forward. Participants left with fresh insights, valuable contacts, and a renewed commitment to enhancing airborne public order support. The conference continues to be a cornerstone event for those dedicated to police aviation, paving the way for future innovations and improvements.

To attend the next PavCon, i.e., 2025, keep an eye on the conference homepage for the latest regarding the next location and date.

https://www.pavconeurope.eu/index.htm

With any profession, there are challenges and potential solutions. It is no different when it comes to the men and women operating various sensors and equipment aboard aircraft (manned & unmanned) for a wide range of purposes, including commercial data collection, surveillance, and more. So, what are some problems and solutions facing the ASO profession today?

ASOG Focus Area | Career Management

Source | ASOG Career Center

The Airborne Sensor Operator (ASO) profession involves operating various sensors and equipment aboard aircraft for various purposes, including surveillance, reconnaissance, data collection, and more. Like any profession, it comes with its own set of challenges and potential solutions:

High Stress and Mental Fatigue

• Problem - ASOs often work in high-pressure situations, which can lead to mental fatigue and stress. Maintaining constant vigilance and making quick decisions can be mentally taxing.
• Solution - Proper training in stress management and regular breaks can help ASOs cope with high-stress situations. Clear communication and teamwork within the crew can also reduce individual stress levels.

Physical Demands

• Problem - The job can be physically demanding, especially during long flights or missions requiring prolonged concentration periods.
• Solution - Regular physical fitness and conditioning can help ASOs maintain their stamina. Adequate rest and sleep are also essential for physical and mental well-being.

Technical Challenges

• Problem - Operating complex sensor systems and equipment requires high technical expertise. Malfunctions or technical issues can disrupt missions.
• Solution - Thorough training and regular practice on the equipment can help ASOs become proficient in handling technical challenges. Maintenance and quality assurance procedures should be in place to minimize equipment failures.

Security Risks

• Problem - Depending on the nature of the mission, ASOs may be exposed to security risks, including potential threats from hostile individuals.
• Solution - To mitigate risks, comprehensive security protocols and situational awareness training are essential. Proper threat assessments and intelligence sharing can enhance safety.

Long Hours and Irregular Shifts

• Problem - ASOs often work irregular hours, including night shifts and weekends, which can disrupt work-life balance.
• Solution - Implementing flexible scheduling and supporting work-life balance can help alleviate this issue. Adequate time off between missions is also crucial.

Monotony

• Problem - Some ASO missions involve long hours of monitoring with minimal active engagement, which can lead to boredom and complacency.
• Solution - Implementing rotation schedules and providing opportunities for skill development or cross-training can help combat monotony.

Health Concerns

• Problem - Prolonged exposure to high altitudes and radiation and the passive nature of the job can lead to health concerns over time.
• Solution - Regular medical check-ups and monitoring can help detect and address health issues early. Encouraging a healthy lifestyle among ASOs is also essential.

Data Overload

• Problem - ASOs are often responsible for collecting and analyzing large amounts of data in real time, which can be overwhelming.
• Solution - Utilizing advanced data processing and analysis tools and automation can help ASOs manage and make sense of the data more efficiently.

Training Costs

• Problem - Training ASOs to operate specialized equipment and sensors can be expensive and time-consuming.
• Solution - Investing in comprehensive training programs and simulators can help reduce costs and ensure ASOs are well-prepared for their roles.

Ethical and Legal Considerations

• Problem - ASOs may face ethical dilemmas related to the collection and use of data, as well as legal considerations in terms of privacy and international laws.
• Solution - Providing ethical training, clear guidelines on data collection and use, and adherence to legal regulations is essential.

Summary

In the ASO profession, addressing these challenges requires proper training, effective communication, support systems, and adherence to safety and ethical standards. Regular assessment and improvement of operational procedures are also vital to ensure the success of missions and the well-being of ASOs.

We're on the Final Approach

We have three excellent events taking place next week at the same place

We invite you to join us for a week of Networking & Professional Development!

ASOG Airborne Mission Management System & Sensor Course

Are you ready to soar to new heights in your career as an Airborne Sensor Operator?

Our comprehensive program is crafted to equip participants with the indispensable skills and knowledge required to thrive in operating fundamental ASO airborne mission management systems and associated sensors.

The course spans two focused days of training to enhance operator airmanship skills and enable attendees to operate cutting-edge ASO systems.

30 – 31 May 2024

Airborne Technologies GmbH Facilities, Wiener Neustadt, Austria

For More Information

Registration Form

Police Aviation Conference Europe (PAvCon)

PAvCon Europe - The Networking Continues

This year's conference will focus on crew training and technology information. The conference format consists of one day dedicated to training and two days of presentations and technical displays.

27 – 29 May 2024

Airborne Technologies GmbH Facilities, Wiener Neustadt, Austria

For More Information

ASOG Networking "Meet-Up"

You're invited to Join Us!

We're thrilled to announce the next ASOG "Meet-Up" event at this year's PAvCon and ASOG Training Week. If you're attending the conference or training course, don't miss out on this opportunity to join us for professional networking and fun. We guarantee it'll be worthwhile! All ASOG Members, Connections and Followers are welcomed.

30 May 2024, 1800 CET

Hilton Garden Inn, Wiener Neustadt, Austria

For More Information

If you're a newly assigned ASO supervisor or you've been given the opportunity to train new Airborne Sensor Operators from scratch, but you're not sure how to get started or organized, here is a good starting point for you to properly train the next generation of operators.

ASOG Focus Area | Education & Training

Source | ASOG Training Center

First, an ASO training plan should provide comprehensive instruction to individuals operating sensors aboard aircraft, often for surveillance, data collection, monitoring, or mapping tasks. Additionally, it should continuously reinforce aviation safety principles and best operating practices.

Secondly, an ASO training plan should not focus on a few specific job tasks or just teaching a checklist without explanation; instead, it should focus on producing a well-rounded ASO aircrew member. So, if you want to train "top-notch" operators, here's a recommended outline for a comprehensive Airborne Sensor Operator training plan:

1. Introduction to Airborne Sensors - Understand…

• The different types of sensors used in aviation (LiDAR, cameras, infrared, etc.).
• The role and importance of ASOs in various industries (e.g., aerial surveying, law enforcement, environmental monitoring).

2. Sensor Technology and Systems - Understand or Know…

• Specific sensor technologies, including how they work, their data collection methods, and data output formats.
• Sensor components, calibration methods, and maintenance requirements.

3. Aviation Fundamentals - Understand…

• Basic aviation concepts, including flight dynamics, aerodynamics, and aircraft systems.
• Aviation terminology and communication procedures.

4. Aeronautical Knowledge – Understand…

• Aviation regulations and safety protocols relevant to sensor operation.
• Airspace classifications, NOTAMs, and aviation navigation.

5. Pre-Flight Preparation – Understand…

• Pre-flight planning, including mission objectives, sensor configuration, and safety considerations.
• Weather forecasts and potential impacts on sensor operations.

6. On-Board Equipment Setup - Understand…

• Hands-on instruction on setting up sensors, configuring data collection parameters, and ensuring proper alignment.
• Power requirements and interfacing with aircraft systems.

7. In-Flight Operation – Understand…

• Operating sensors during flight, including managing data acquisition, adjusting settings, and ensuring data quality.
• Work effectively with pilots and other crew members.

8. Sensor Data Management and Processing – Understand…

• Data management techniques for sensor-generated data.
• Basic data processing concepts, including data formatting, georeferencing, and quality control.

9. Flight Safety and Emergency Procedures – Understand…

• Flight safety protocols during sensor operations.
• Emergencies and equipment malfunctions and how to prepare for and respond.
• First Aid protocols.
• Aircrew Survival practices.

10. Navigation and Geospatial Concepts – Understand…

• GPS systems, navigation principles, and georeferencing techniques.
• Geographic Information Systems (GIS) and the integration of sensor data.

11. Data Interpretation and Analysis (Domain-Specific) – Understand…

• Domain-specific instruction on interpreting and analyzing sensor data for specific applications (e.g., environmental monitoring, agriculture, mapping).

12. Legal and Ethical Considerations – Understand…

• Legal requirements, privacy concerns, and ethical considerations related to sensor operation, data collection, and sharing.

13. Communication Skills – Understand…

• Communication with pilots, mission coordinators, and other team members during flight operations.
• To provide clear and accurate reports on sensor data.

14. Practical Flight Training – Understand and participate in…

• Hands-on flight sessions with instructors, during which trainees operate sensors in real-world scenarios.
• Practice in different flight conditions and mission types.

15. Post-Training Assessment – Understand, Evaluate and Identify…

• Trainees' ability to operate sensors safely and effectively.
• Areas for improvement and ongoing training needs.

16. Certification and Proficiency Test (if applicable) – Provide…

• A proficiency test to assess trainees' skills and knowledge.
• Certificates upon successful completion of training.

Summary

Remember that this training plan can be customized based on the specific sensors, aircraft, industries, and regulations applicable to the training program. Real-world scenarios, practical exercises, and exposure to actual equipment are crucial for ensuring that Airborne Sensor Operators are well-prepared for their responsibilities.

We’re Only 2 Weeks Out

If you plan to attend, register today to reserve your spot

ASOG Registration Form

If you didn’t see the first announcement, ASOG will host a training course this spring (May 30-31,  2024). Our comprehensive program is crafted to equip participants with the indispensable skills and knowledge required to thrive in operating fundamental ASO airborne mission management systems and associated sensors.

Taking place immediately following the Police Aviation Conference (PAvCON) Europe, our course spans two focused days of training aimed at enhancing operator airmanship skills and enabling attendees to operate cutting-edge ASO systems.

Dates: May 30 - 31, 2024 | 08:00 – 17:00 Daily (following PAvCon Europe | May 27 – 29, 2024)
Location: Wiener Neustadt East Airport, Austria

Course Overview
Our curriculum integrates classroom instruction with hands-on practical training, offering participants a holistic learning experience that applies airborne mission management capabilities to real-world scenarios. Throughout the course, participants will:

• Explore the functions and operations of airborne mission management systems and sensors.
• Engage in simulated exercises that directly reflect such systems' practical use and operation.
• Acquire knowledge of fundamental non-rated aircrew airmanship principles and practices crucial for safe and effective operations in an airborne environment.

By combining theoretical understanding with practical application, participants will develop a comprehensive grasp of ASO mission management systems, sensors, and non-rated aircrew airmanship, empowering them to excel in their Aerial Work aviation industry roles.

For further information and registration details, please visit the ASOG Homepage or reach out to us directly at info@aso-group.org. We eagerly anticipate welcoming you to Wiener Neustadt for two days of immersive learning and professional development!

Sponsors

In the realm of Aviation Safety, one crucial aspect is assessing the risk associated with each flight. As aviators, we recognize that every flight inherently carries some level of risk. Therefore, it's vital for aircrew to distinguish between low and high-risk flights beforehand and establish a review process along with risk mitigation strategies. FRAT serves as a tool to expedite this process.

ASOG Focus Area | Aviation Safety

Source | ASOG Safety Center

What is FRAT?

FRAT stands for Flight Risk Assessment Tool. It's a systematic and standardized method used in aviation to evaluate the risks associated with a specific flight before its departure. The primary objective of a FRAT is to bolster flight safety by pinpointing potential hazards and gauging the level of risk linked to each flight. This empowers flight operators, pilots, and aviation organizations to make informed decisions regarding whether to proceed with a flight, alter the flight plan, or even cancel it if risks are deemed excessive.

Key Components

Typically, a Flight Risk Assessment Tool (FRAT) encompasses the following key components and features:

Risk Factors - FRATs consider various factors that can impact flight safety, including weather conditions, aircraft performance, pilot experience, and route complexity.

Risk Assessment Criteria - Each risk factor is assigned a numerical value or rating, and the tool utilizes predefined criteria to evaluate the overall risk level of the flight.

Risk Levels - Flights may be categorized into different risk levels based on the assessments, such as low, moderate, high, or unacceptable.

Decision Support - FRATs offer decision support by prompting a review or requiring specific risk mitigation measures for high-risk or unacceptable flights.

Documentation - FRATs generate reports or records of the risk assessment process, crucial for compliance, auditing, and safety monitoring.

User-Friendly Interface - Designed to be user-friendly, FRATs allow pilots and flight operators to input relevant information effortlessly and receive risk assessments promptly.

How Does It Work?

Though designs may vary, FRATs typically pose a series of questions to identify and quantify flight risks. For instance, the FAA Safety Team's current FRAT tool follows the PAVE checklist, covering questions regarding Pilot & Crew, Aircraft, Environment, and External Pressures. Based on the provided answers, a total risk score is computed.

Sample FRAT

Summary

As you can see, FRATs constitute a vital component of aviation safety management systems (SMS), utilized by both commercial and private aviation operators. They ensure flights are conducted with a comprehensive understanding of potential risks and appropriate risk mitigation measures in place when necessary, ultimately enhancing aviation safety. While specific designs and features of FRATs may differ among aviation organizations, the overarching goal remains the same: to make informed decisions concerning flight safety. So, back to the original question, how often do you FRAT?

ASOG Focus Area | News & Information

Source | John Hamshare

SWIFT Airfield Conference and Trade Show, brings together airport professionals to discuss various aspects of airfield maintenance, operations, and technological advancements.

SWIFT Airfield Conference and Trade Show

The steering committee of SWIFT Europe 24 invited the ASOG community to host a discussion panel on how the Aerial Work aviation sector supports airport operations, i.e., aerial surveying, security, aerial facility inspections etc.

If you or your company regularly support airfield operations from a manned or unmanned aircraft perspective and you want to engage and inform the leaders of Europe’s major airport managers and want to participate on the ASOG panel, reach out to us at info@aso-group.org. Here are some key details:

Date: June 18th and 19th, 2024.

Location: Renaissance London Heathrow Hotel

Purpose: SWIFT Europe aims to encourage collaboration, knowledge sharing, and excellence in airside operations between airports and governing bodies across the Atlantic.

Attendees:

• Airport authorities (small, medium, and large airports in Canada and Europe).
• Airfield operations, civil engineering, and maintenance management professionals.
• Government agencies involved in airport development and regulation.
• Air traffic control agencies.
• Airport pavement engineers, contractors, and military operators.
• Manufacturers of airfield-related materials and equipment.

Topics Covered:

• Design, construction, and maintenance of airport pavements.
• Snow removal and ice control procedures and equipment.
• Regulations related to airfield operations and maintenance.
• Evaluation of runway surface conditions.
• User perspectives on airfield operation and maintenance.

If you or a representative from your company would like to participate in the discussion panel, please reach out to us at info@aso-group.org. Panel members will receive a complimentary pass to the conference.

Additionally, if your company is interested in sponsoring or exhibiting at this year's event, please contact sophie.oneill@aviationeventsgroup.com.

This presents an excellent opportunity for the Aerial Work aviation sector and the Airborne Sensor Operation community to actively engage and inform the major airport management sector about how we can support their efforts.

In the dynamic world of aviation, the spotlight often shines brightly on rated aircrew members, such as pilots and flight engineers, whose roles are well-defined and recognized within the industry. Yet, behind the scenes, a diverse group of professionals known as non-rated aircrew members quietly undertake critical responsibilities essential for the success of aerial operations.

ASOG Focus Area | News & Information – Career Management

Source | Patrick Ryan

Today, these unsung heroes face a unique set of challenges that often go unnoticed. From limited career progression opportunities to the constant demand for specialized skills, non-rated aircrew members navigate obstacles that can hinder their professional growth and recognition.

Yet, despite these challenges, the future holds promise for these dedicated individuals. As technology advances and aviation evolves, the role of non-rated aircrew members is poised to expand, offering new opportunities for specialization, professional development, and greater recognition within the aviation community.

In this article, we delve into the challenges facing non-rated aircrew members and explore the exciting prospects that lie ahead for this indispensable segment of the aviation workforce.

Challenges

The challenges non-rated aircrew face can vary depending on their specific roles and the nature of the missions they undertake. However, some common challenges include:

Recognition and Validation - Non-rated aircrew may struggle to receive recognition for their contributions due to the focus often being on rated positions within aviation. This lack of validation can impact morale and career advancement opportunities.

Training and Certification - While non-rated aircrew members undergo specialized training for their roles, obtaining formal certifications or qualifications can be challenging, as these may not be standardized across the industry.

Career Progression - Non-rated aircrew may face limited opportunities for career progression compared to their rated counterparts. This could be due to a lack of defined career paths or advancement criteria for non-rated positions.

Safety and Risk - Depending on their roles, non-rated aircrew members may encounter unique safety challenges, such as working in hazardous environments or operating specialized equipment. Ensuring their safety while performing their duties is crucial.

Financial Compensation - Non-rated aircrew members may receive lower financial compensation compared to rated positions with similar levels of responsibility and experience.

The Future

Looking to the future, the role of non-rated aircrew in aviation is expected to evolve in several ways:

Increasing Specialization - As technology advances and aviation operations become more complex, there will likely be a growing demand for specialized non-rated roles to support new missions and tasks.

Professional Development Opportunities - Efforts may be made to establish clearer pathways for career advancement and professional development for non-rated aircrew, including standardized training programs and certification pathways.

Recognition and Appreciation - There may be greater recognition of the valuable contributions non-rated aircrew make to aviation operations, leading to improved validation and appreciation within the industry.

Technological Integration - Non-rated aircrew roles may become more integrated with advanced technologies, such as unmanned aerial vehicles (UAVs) or augmented reality systems, enhancing their capabilities and efficiency in performing their duties.

Regulatory Changes - Aviation authorities may introduce new regulations or standards specifically addressing the training, certification, and roles of non-rated aircrew, ensuring their safety and competence in their respective positions.

Summary

As you can see, non-rated aircrew members play essential roles in aviation operations, yet they often encounter challenges that hinder their recognition and career progression. From a lack of standardized training and certification to limited opportunities for advancement, these professionals navigate obstacles that can impact their morale and professional development.

However, as the aviation industry evolves, so too does the future of non-rated aircrew members. With advancements in technology and a growing demand for specialized skills, opportunities for these professionals are expected to expand, offering greater recognition, professional development pathways, and integration of advanced technologies into their roles.

Despite the challenges they face, the future holds promise for non-rated aircrew members as integral contributors to the success of aviation operations worldwide.

Understanding the type of learner a student is crucial for both the airborne sensor operator instructor and the student because it allows for tailored instruction that maximizes learning outcomes.

ASOG Focus Area | Education & Training

Source | ASOG Training Center

There are various types of student aircrew, each with different learning styles and preferences for receiving information. So, why is it important to understand the different types or styles of learners, and what are the different types of learning styles? The following will answer these very important training questions.

Why It's Important

First, understanding the type of learner a student is crucial for both the airborne sensor operator instructor and the student because it allows for tailored instruction that maximizes learning outcomes. Here's why:

Effective Communication - Different learners respond better to various forms of instruction. Some may excel with visual aids, while others may grasp concepts better through hands-on activities or verbal explanations. Knowing the student's learning style enables the instructor to communicate information effectively, ensuring that the student receives the information in a way that resonates with them.

Optimized Learning - By identifying the student's learning style, instructors can tailor their teaching methods to match. This optimization enhances the student's understanding and retention of the material. For example, if a student is a visual learner, incorporating diagrams, charts, and videos into the instruction can enhance comprehension.

Increased Engagement - When instruction aligns with a student's learning style, it increases engagement and motivation. Students are more likely to stay focused and actively participate in the learning process when they feel that the material is relevant and presented in a way that matches their preferences.

Effective Problem-Solving -Understanding how a student processes information can aid in troubleshooting when encountering challenges or difficulties. The instructor can adapt their approach to provide alternative explanations or learning activities that cater to the student's preferred learning style, helping them overcome obstacles more effectively.

Building Confidence - Tailoring instruction to a student's learning style can boost their confidence in their abilities. When they consistently understand and engage with the material, they are more likely to feel confident in their skills and knowledge, which is particularly important in high-pressure environments like airborne sensor operations.

The Different Types of Learners

When it comes to the different types of learners, here are some common types and how they might best receive information:

Visual Learners - These students learn best through visual aids such as diagrams, charts, and videos. They may benefit from:

• Detailed illustrations or diagrams of aircraft systems and procedures.
• Interactive computer-based training programs.
• Instructional videos demonstrating maneuvers or procedures.
• Whiteboard explanations with diagrams during ground school sessions.

Auditory Learners - These students learn best through listening and verbal explanations. They may benefit from:

• Detailed verbal explanations from instructors during ground school sessions.
• Classroom lectures with opportunities for discussion and questions.
• Recorded audio lessons or podcasts covering aviation topics.
• Radio communication practice sessions to improve listening skills.

Kinesthetics Learners - These students learn best through hands-on experience and physical practice. They may benefit from:

• Practical flight training exercises with hands-on controls.
• Interactive system simulators or flight training devices.
• Hands-on demonstrations of systems inspections and aircraft procedures.
• Practice with physical flight systems in a controlled environment.

Tactile Learners - Like kinesthetic learners, tactile learners learn best through touch and hands-on experience. They may benefit from:

• Hands-on manipulation of system controls during flight training.
• Using physical models or simulators to understand aircraft and ASO systems.
• Conducting physical pre-flight inspections and maintenance tasks under supervision.
• Engaging in interactive activities that involve physical movement and manipulation.

Social Learners - These students thrive in group settings and learn best through interaction and collaboration. They may benefit from:

• Group study sessions with other students to discuss concepts and share experiences.
• Peer-to-peer teaching and mentoring within a training community.
• Participating in aviation clubs or organizations (e.g., ASOG) to connect with other enthusiasts.
• Collaborative learning activities such as group projects or scenario-based discussions.

Summary

As you can see, flight instructors need to recognize and accommodate their students' diverse learning styles by employing various teaching methods and resources. By tailoring instruction to individual preferences, aircrew students can maximize their learning potential, progress more effectively in their training, and save many valuable resources. So, what type of learner are you?

Are you ready to soar to new heights in your career as an Airborne Sensor Operator? Look no further! Our comprehensive course is designed to equip you with the essential skills and knowledge needed to excel in operating basic ASO workstation mission management systems and associated sensors

This course caters to novice and experienced non-rated/rated aircrew members (such as Airborne Sensor Operators, TFOs, etc.), Specialists & Technicians, and Supervisors engaged in various Aerial Work aviation operations (including Public Safety, Defense, and Commercial sectors).

This course is tailored for individuals with foundational knowledge of basic flight operations and sensor usage. They provide comprehensive insights into airborne AI mission management, sensors and principles of airmanship for non-rated aircrew members. Whether you're seeking to expand your expertise or enhance your skills in these specialized domains, these courses are designed to meet your needs and advance your career in aviation.

Why Attend?

• Expert instruction from seasoned professionals in the field.
• State-of-the-art facilities and equipment for immersive learning.
• Option of two Aerial Work aviation events in one week at the same location.
• Affordable tuition.
• Networking opportunities with industry and operators.

What you'll gain:

• In-depth understanding of airborne sensor operation principles.
• Proficiency in effectively utilizing unique airborne mission management systems and sensors.
• Hands-on experience with cutting-edge technology.
• Practical skills for mission planning, execution, and analysis.
• Certification upon successful completion.

Partnership Highlights

• FLYSIGHT, deep dive into OPENSIGHT: The multi-platform PED (Processing, Exploitation and Dissemination) system created to provide the best support in Airborne mission decision making.
• SAFRAN, featuring EUROFLIR™ 410: Airborne electro-optical system integrated with OPENSIGHT to allows fixed, rotary-wing aircraft & UAV to carry out, in any conditions, intelligence, protection, search and rescue missions thanks to long-range observation and accurate targeting and designation capabilities.
• CENTUM Research & Technology, highlighting Lifeseeker®: The Airborne Phone Locator System for planes, helicopters and UAVs/ drones SAR Mission Optimization.
• SMITH MYERS, showcasing ARTEMIS®: The Mobile Phone Location system designed for search and rescue (SAR) operations in challenging airborne environments.

Training Week Description and Issued Certification

The ASOG Training Week, following the Police Aviation Conference (PAvCON) Europe at the same hanger is two days of focused training designed to increase operator airmanship skills and allow attendees to operate leading-edge ASO systems. In addition, attendees will be exposed to the equipment, tools, and techniques necessary to expand their operator knowledge. The training courses offered this week are:

Basic ASO Mission Management Systems Course - Dive into the fundamentals of airborne sensor operation and mission management systems. Gain hands-on experience with cutting-edge technology and learn essential skills for mission planning, execution, and analysis.

The practical activity of navigating the Mission Console OPENSIGHT® system, a Real-time Augmented Reality engine with Artificial Intelligence that leverages Multi-Domain Expertise and features an Operator-Friendly Design, will be introduced.

The course is endorsed by:

Certification:

• OPENSIGHT® system technology basic-use Certification
• ASOG Aerial Mission Management Systems Certification

Course Curriculum

The course curriculum comprises classroom instruction and hands-on practical training, providing participants with a comprehensive learning experience that applies to airborne mission management capabilities to real-world scenarios. Throughout the course, attendees will:

• Gain insight into the functions and operations of airborne mission management systems and sensors.
• Engage in simulated exercises that directly correlate with such systems' practical use and operation.
• Acquire knowledge of fundamental non-rated aircrew airmanship principles and practices essential for safe and effective operations in an airborne environment.

By combining theoretical knowledge with practical application, participants will develop a well-rounded understanding of ASO workstation systems, sensors and non-rated aircrew airmanship, empowering them to excel in their Aerial Work aviation industry roles.

Course Information & Registration

Dates - May 30 - 31, 2024 | 08:00 – 17:00 Daily  (PAvCon Europe | 27 – 29 May, 2024)

Location - Wiener Neustadt East Airport | Austria

Course Cost - €490

ASOG Registration Form

Note

Don't hesitate to contact us at info@aso-group.org if you need assistance registering. All attendees must be registered to participate by 23 May 2024.

Travel Information

Training Facility

• Airborne Technologies GmbH, Viktor-Lang Straße 8 (Wiener Neustadt East Airport), 2700 Wiener Neustadt, Austria
• Conference rooms Alpha and Bravo

Travel

• Air – Airline service to Vienna International Airport or GA aircraft to Wiener Neustadt East Airport with prior permission.
• Train – Wiener Neustadt Hbf
• Taxi - Vienna International Airport to Wiener Neustadt (Cost around €140)

Lodging

• Hilton Garden Inn | +43 2622 29400 | info@hgi-wn.at | Promenade 6. | 2700 Wiener Neustadt | Austria
• Hotel Garni Steinfeld | +43 2622 26907 | www.hotel-steinfeld.at/en/ | Nikolaus-August-Otto Straße 4 | 2700 Wiener Neustadt | Austria

Again, don't miss this unique opportunity to enhance your skills and advance your career in airborne sensor operations. Reserve your spot today and join us after PAvCON on May 30th and 31st, 2024. Spaces are limited, so act fast!

For more information and registration details, visit our website or contact us directly at info@aso-group.org. We look forward to welcoming you to Wiener Neustadt for two days of immersive learning and professional growth!

Sponsors

Crafting an effective resume is vital in showcasing one's qualifications and suitability for an Airborne Sensor Operator career. This role demands a unique blend of technical proficiency and interpersonal understanding, encompassing hard and soft skills.

ASOG Focus Area | Career Management

Source | ASOG Career Center

So, what is essential to understand regarding your professional skills? First, with an eye on your next resume, understanding how to articulate these skills on a resume is crucial for capturing the attention of potential employers and conveying one's readiness to excel in this dynamic and challenging field. This article delves into the art of effectively presenting hard and soft skills on a resume for aspiring airborne sensor operators, providing insights and strategies to help candidates stand out in a competitive job market.

What are Hard & Soft Skills?

On a resume, "hard skills" and "soft skills" refer to two different types of abilities and attributes a candidate possesses.

Hard Skills - Hard skills are specific, teachable abilities that can be quantified and measured. They are typically related to technical expertise, knowledge, or proficiency in a particular area. Examples of hard skills include proficiency in programming languages, software or tools, data analysis, project management, and fluency in a foreign language. Hard skills are often gained through education, training programs, certifications, or hands-on experience.

Soft Skills - Soft skills, on the other hand, are interpersonal or "people" skills that are less tangible and more difficult to quantify. They refer to personal attributes, characteristics, and behaviors contributing to effective communication, collaboration, and interpersonal relationships. Soft skills include communication, teamwork, problem-solving abilities, adaptability, leadership, time management, and emotional intelligence. Soft skills are often inherent traits but can be developed and honed over time through experience, feedback, and self-awareness.

The bottom-line, hard skills represent technical abilities and expertise, while soft skills represent interpersonal and personal attributes. Both types of skills are valuable and important to highlight on a resume, as they collectively demonstrate a candidate's suitability for a particular role or position.

ASO Hard & Soft Skills

So, for an ASO, a combination of hard and soft skills is essential for effective performance and highlighting on a resume. Here are the hard & soft skills we recommend you strive to and broadcast on your resume:

Hard Skills

Technical Proficiency - Ability to operate and troubleshoot complex sensor systems, including radar, infrared cameras, LiDAR, and other specialized equipment.

Aircraft Knowledge - Understanding aircraft systems, flight operations, and aerodynamics, particularly concerning sensor deployment and data collection.

Data Analysis - Proficiency in analyzing sensor data, interpreting imagery, and extracting actionable intelligence or information relevant to mission objectives.

Navigation Skills - Ability to navigate and use navigational aids effectively, including GPS, maps, and terrain databases, to ensure accurate positioning and data collection.

Maintenance and Calibration - Knowledge of sensor maintenance procedures, calibration techniques, and quality control measures to ensure the accuracy and reliability of sensor data.

Soft Skills

Communication - Effective communication skills are essential for coordinating with other crew members, ground personnel, and mission commanders and conveying information clearly and concisely during missions.

Problem-Solving - Strong problem-solving skills are critical for troubleshooting technical issues, adapting to changing mission requirements, and making quick decisions in dynamic situations.

Attention to Detail - Attention to detail is crucial for accurately interpreting sensor data, identifying anomalies or potential threats, and ensuring the integrity of collected information.

Teamwork - Ability to work collaboratively as part of a multidisciplinary team, including pilots, mission planners, and other crew members, to achieve mission objectives and ensure mission success.

Adaptability - Flexibility and adaptability are essential for quickly adjusting to changing conditions, mission priorities, or unexpected challenges during flights.

Stress Management - Strong stress management skills are necessary for maintaining composure and focus during high-pressure situations, such as emergencies or critical missions.

Decision-Making - Sound judgment and decision-making skills are crucial for prioritizing tasks, assessing risks, and making timely and effective decisions in fast-paced, high-stakes environments.

Summary

As you can see, in airborne sensor operations, the ability to effectively convey hard and soft skills on a resume is paramount for aspiring professionals seeking to enter or advance in this dynamic field. While hard skills demonstrate technical proficiency and expertise with sensor equipment and aircraft systems, soft skills showcase interpersonal abilities crucial for effective communication, collaboration, and problem-solving. By understanding how to articulate these skills strategically on a resume, candidates can effectively demonstrate their readiness to excel as ASOs and distinguish themselves in a competitive job market.

The 5Ps – Plan, Plane, Pilot, Passengers and Programming – work synergistically to create a pre-flight working plan that considers potential problems such as terrain considerations and excessive data gathering.
Operators can fine-tune their plan at this juncture, especially using the final P: Programming. Using software such as OPENSIGHT takes much of the hard work away from operators.
Utilising Deep Learning protocol, it can be fully integrated into existing operations and exploits the benefits of AI processing for exceptionally fast and accurate data acquisition.

Additional Programming tools such as Augmented Reality can give operators vital real-time information in 3D overlays, defining potentially hazardous areas and positioning the aircraft in its exact geospatial position. This assists pilots in planning not only the most effective and efficient route but the safest too.

Based on the SUCCESSFUL INTEGRATIONS AND TRUSTED PARTNERSHIPS THAT HAVE CHOSEN OPENSIGHT , 8 Key Factors to Consider When Choosing OPENSIGHT as your Mission System Software:

1. Universally Adaptable OPENSIGHT Mission Console is Operating System and Hardware Agnostic, ranging from lightweight tablets to robust mission systems, ensuring compatibility for all integration needs. 
   Discover the freedom to use OPENSIGHT anywhere
   
   
2. Empower your vision Embrace the OPENSIGHT-mc Open-Code approach, shape your unique solution, and own the final product. 
   It's your journey, your rules – OPENSIGHT Mission Console Open-Code is here to guide you
   
   
3. Seamless Deployment for End Users - For end users, OPENSIGHT Mission Console is delivered as a ready-to-use application. Just pure readiness to elevate your operations
   
   
4. Unmatched Flexibility - Stanag4609, SDI acquisition, frame grabber control, custom interfaces and plugins - Effortlessly adapting to multiple scenarios, OPENSIGHT Mission Console is designed to be the chameleon of software – versatile and dynamic
   
   
5. Data integration Made Easy - Pull in any kind of data effortlessly, from Radar to AIS, MPDLS, and weather. With ready-made plugins or the freedom to develop your own using OPENSIGHT Software Development Kit,the possibilities are limitless
   
   
6. Open Data Exchange - Record, Replay, Record, Record, Restream, Exchange, Export – OPENSIGHT Mission Console is Open, ensuring seamless data export to other system. 
   Your data, your way
   
   
7. Leverage Multi-Domain Expertise - OPENSIGHT-mc is continually enriched by the cross-domain expertise of the OPENSIGHT system technology, MULTI-PLATFORM ped designed to offer optimal decision-making support, spanning from airborne surveillance missions to underwater operations.
   
   
8. Operator-Friendly Design - Simplify your operator's life with a user-friendly Human-Machine Interface (HMI) and support for Automatic Target Recognition (ATR) capabilities, ensuring satisfaction with its operations.
   
   

To learn more, at your disposal, the Company Overview and brochure for the OPENSIGHT Mission Console:

⤵️ FlySight's Overview
⤵️ OPENSIGHT Mission Console - Brochure