Richard Ryan Archives - Blakistons

Rapid Briefing: “UK Drone Regulations and Net Risk” (PwC, Sept 2025) — Issues, Gaps, Opportunities

admin.richard — Tue, 28 Oct 2025 08:05:36 +0000

“`By Richard Ryan, barrister and drone lawyer

What the paper actually shows (evidence you can cite)

Insurers say risk is intrinsically low; very few third-party injury claims; risk has reduced over the decade with better tech/training. (pp. 9–11)
UK’s ‘zero-risk + case-by-case’ stance hasn’t produced safer skies than more prescriptive/permissive regimes (US/EU/Canada/Singapore); it has delayed progress. (pp. 12–13)
Net-risk lens: drones remove more risk than they introduce (e.g., falls from height, confined spaces, helicopter exposure). (pp. 14–18)
BVLOS doesn’t materially increase risk where well-managed; biggest predictors are location and safety management. (pp. 10–11, 19–22)
Incident data 2022–24: commercial operations show zero fatalities across UK, US, EU, Canada, Singapore; only a handful of serious injuries. (Appendix + country sections, pp. 55–61)
SORA friction/cost: UK SORA application at SAIL II is £3,495; mitigations/AMC still qualitative ? “OSC-style” uncertainty persists. (p. 35)
“Picking winners”: five BVLOS priorities (emergency response, powerlines, maritime SAR, rail, crop spraying). (pp. 6, 25–33)
Policy levers: shift to digital PDRAs for repeatable, low-risk scenarios; reuse prior approvals; model on EU PDRAs/Canada’s lower-risk BVLOS. (pp. 36–37; Appendix 1)
Emergency services gap: the old standing exemption (E4506) lapsed; routine BVLOS now hard to get—BTP resorted to State Aircraft rules. (p. 27)
Comparative table (risk models, UTM status, Remote ID, scale-up reality) explains why the UK feels “high-friction”. (p. 52)

Regulatory & enforcement issues to flag (and build matters around)

Incoherent risk calibration: the UK treats many Specific-category ops as high-risk despite cross-market low incident severity and strong insurer data. (pp. 9–13, 55–57)
Process opacity & cost-burden: SORA mitigations/AMC are qualitative ? inconsistent asks; high fees despite narrow temporal/spatial grants. (p. 35)
Emergency-services capability gap: loss of E4506 creates avoidable delay/risk; forces work-arounds (State Aircraft) rather than transparent PDRA. (p. 27)
AAE not yet a permissioning tool: policy concept ? scalable authorisation path (contrast EU PDRA-G03 for linear infrastructure). (pp. 28–31, 36)
Net-risk inversions: requirements like “observer in a boat” for coastal EVLOS can increase system risk and cost vs. sensor-driven shore control. (p. 21)
Data transparency: the UK has many “record-only” entries; EU public access is patchy; hard for operators/insurers to benchmark safety cases publicly. (pp. 54–61)

Practical exposure points for stakeholders

Insurers: common declinature trip-wires—ops outside the authorisation envelope; poor log preservation; weak maintenance/firmware governance. (pp. 9–11, 35–36)
Operators/pilots: SORA drift, local land-use limitations, and fragmented permissions across linear corridors; evidence-pack discipline needed. (pp. 28–31, 35–36, 56–57)
Associations/community: need bilingual templates/FAQs and incident learning loops; emphasise the airspace vs land-use distinction to reduce friction. (inferred)
Public bodies (blue-light, MCA, NR, utilities): proven benefits blocked by bespoke approvals—strong case for sector PDRA playbooks. (pp. 26–33, 36)

What this means for drone pilots, operators, and companies

As a drone lawyer, my reading of the PwC paper is that the safety record increasingly supports predictable, rules-based authorisations, but the UK still applies bespoke processes that create delay, cost and legal uncertainty. The winners will be those who treat compliance as an operational capability, not a paperwork chore.

Implications for Drone Pilots

Documentation is defence: retain native telemetry, app/controller logs, and pre-flight risk assessments. These are crucial in insurer claims and any CAA inquiry.
VLOS/BVLOS discipline: be explicit about how VLOS was maintained (or the BVLOS mitigations used). Ambiguity here is a common enforcement and insurance pain point.
Privacy on site: where people are identifiable, prepare a simple lawful-basis note and signage plan; it reduces complaint/escalation risk significantly.

Implications for Operators

Align your OA/ops manual with SORA and AAE logic: show how mitigations reduce both air and ground risk. Clear mapping cuts questions and accelerates approvals.
Design for repeatability: build PDRA-ready evidence packs for your most common jobs (e.g., rail/powerline corridors) so each new mission is a variation, not a reinvention.
Insurance resilience: standardise maintenance/firmware baselines and battery care logs; many declinatures stem from gaps here, not from the incident itself.
Contracts that reflect reality: flowing down responsibilities to subcontractors (airworthiness, data protection, incident reporting) reduces exposure and smooths procurement.

Implications for Drone Companies & Enterprise Users

Board-level accountability: appoint a named senior responsible owner (SRO) for UAS operations with decision logs—critical if decisions are later examined in court or by regulators.
Data governance as an asset: implement DPIAs where warranted, role-based access to imagery, retention/deletion schedules, and breach protocols. This increases tender scores and reduces enforcement risk.
Public value narrative: quantify how drone tasks remove traditional risks (work at height, road possessions, helicopter hours). This “net-risk” case supports proportional, scalable permissions.

Where legal support helps, assists, and mitigates

Approvals & permissions: structuring SORA/AAE applications with proportional mitigations, re-using prior evidence, and narrowing scope to reduce fees and conditions.
Policy & appeals: challenging irrational or net-risk-increasing conditions; seeking clarifications; and preparing proportionate alternatives that the regulator can accept.
Privacy & data: lawful-basis memos, DPIAs, signage/LLN templates, and response playbooks for complaints or subject access requests.
Insurance & claims: coverage mapping, notification strategy, and evidence preservation to avoid declinature; subrogation prospects where third parties contributed to loss.
Contracts: allocating risk cleanly across clients, operators and subcontractors (indemnities, limitation, IP/data ownership, incident reporting).

Bottom line: the sector is safe and maturing. Those who can demonstrate their risk controls, evidence compliance, and standardise approvals will grow fastest—with fewer legal shocks along the way.

Talking points for meetings & panels

Same safety, slower UK growth: insurers and incident data show low intrinsic risk—authorisations should be predictable and prescriptive, not bespoke. (pp. 9–13, 36–37)
Digital PDRAs now: for repeatable BVLOS (powerlines/rail/SAR/maritime/agri)—reuse evidence from prior OSCs; mirror EU PDRA/Canada logic. (pp. 25–33, 36)
Emergency drones need an emergency rulebook: the E4506 gap is pushing forces into State Aircraft work-arounds. (p. 27)
Incident reality: zero fatalities in 2022–24 across major markets; claims are mainly minor property/equipment—calibrate conditions accordingly. (pp. 55–61; pp. 9–11)

“`

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AI Drone Swarms and the EU AI Act: A Game-Changer in Modern Warfare?

admin.richard — Sat, 16 Nov 2024 17:44:52 +0000

AI Drone Swarms and the EU AI Act: A Game-Changer in Modern Warfare?

By Richard Ryan, Drone Lawyer

The recent trials conducted by the AUKUS nations—Australia, the United Kingdom, and the United States—mark a significant milestone in the integration of artificial intelligence (AI) and autonomy within military operations. The deployment of AI-enabled uncrewed aerial vehicles (UAVs) capable of locating, disabling, and destroying ground targets presents both remarkable advancements and complex legal challenges, particularly in the context of the European Union’s AI Act.

As a drone lawyer with over 20 years of experience in the UK, I find it imperative to dissect the interaction between these groundbreaking trials and the regulatory landscape shaped by the EU AI Act. This discussion aims to highlight the risks, oversight issues, and intellectual property considerations that arise when integrating AI algorithms into military UAV swarms.

Understanding the EU AI Act’s Impact

The EU AI Act seeks to establish a comprehensive regulatory framework for AI technologies, focusing on transparency, accountability, and human oversight. High-risk AI systems, which include those used in critical infrastructure and law enforcement, are subject to stringent requirements. Military applications, while often exempt from certain civilian regulations, still operate under international humanitarian laws and ethical guidelines that resonate with the Act’s principles.

The AUKUS trials demonstrate the use of AI in autonomous systems for military purposes. The AI-enabled UAVs operated collaboratively, sharing data seamlessly across nations. While the Act primarily governs civilian AI use within the EU, the ethical considerations it embodies cannot be ignored in military contexts, especially when such technologies might eventually influence civilian sectors.

Risks and Oversight Challenges

One of the foremost risks is the potential for AI algorithms to make autonomous decisions without adequate human oversight. The EU AI Act emphasizes the necessity of meaningful human control over AI systems, particularly those capable of impacting human lives. In the AUKUS trials, although a human operator was involved, the level of autonomy granted to the UAVs raises questions about compliance with the Act’s standards if similar technologies were deployed within the EU.

Data exchange and interoperability between the three nations introduce another layer of complexity. The seamless sharing of information enhances operational efficiency but also raises concerns about data protection and cybersecurity. Ensuring that sensitive data transmitted between UAVs and control systems is secure aligns with the Act’s requirements for robust data governance.

The Case for a Simulation Sandbox

To address compliance with the EU AI Act, conducting such trials within a simulation sandbox could be a prudent approach. A sandbox environment allows for the testing and validation of AI algorithms in a controlled setting, mitigating risks associated with real-world deployment. It enables developers to assess the AI’s decision-making processes, identify potential flaws, and ensure adherence to ethical and legal standards before actual implementation.

Moreover, a sandbox can facilitate transparency and accountability, key tenets of the EU AI Act. By documenting the AI’s performance and decision rationale within simulations, stakeholders can provide evidence of compliance and readiness for safe deployment.

Intellectual Property Considerations

Introducing AI algorithms into a regulatory sandbox presents intellectual property (IP) risks that must be carefully managed. Proprietary algorithms and technologies shared within the sandbox could be exposed to unauthorized access or misuse. Protecting IP rights is crucial to encourage innovation and maintain competitive advantages.

To mitigate these risks, clear agreements outlining the ownership, usage rights, and confidentiality obligations related to the AI algorithms are essential. Collaborative efforts, such as those seen in the AUKUS trials, require robust legal frameworks to safeguard each party’s IP while promoting shared development goals.

Conclusion

The integration of AI and autonomous systems in military applications is an evolving frontier that necessitates careful navigation of legal and ethical landscapes. The EU AI Act, while primarily focused on civilian applications, provides valuable guidance on managing high-risk AI systems.

By recognising the risks and oversight challenges presented by the AUKUS AI-enabled UAV trials, stakeholders can proactively address compliance issues. Utilising simulation sandboxes offers a viable pathway to refine these technologies within the bounds of regulatory requirements.

Intellectual property considerations remain a critical aspect of this process. Ensuring that AI algorithms are protected within collaborative environments will foster innovation while maintaining legal integrity.

As we advance into this new era of AI-driven military capabilities, a balanced approach that harmonises technological potential with regulatory compliance will be essential. The lessons learned from these trials will undoubtedly shape the future of AI in both military and civilian spheres.

—

About Richard Ryan

Richard Ryan is a leading drone lawyer based in the United Kingdom, with over 20 years of legal experience as a direct access barrister. Specializing in the legal aspects of unmanned aerial systems and AI technologies, Richard has advised government agencies, defense contractors, and private enterprises on compliance, intellectual property, and regulatory matters. His extensive expertise bridges the gap between cutting-edge technological advancements and the complex legal frameworks that govern them.

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Analysis and Recommendations on CAP 3040 | First Edition

admin.richard — Wed, 06 Nov 2024 13:38:21 +0000

Analysis and Recommendations on CAP 3040 | First Edition

1. Executive Summary

The CAA’s policy concept aims to enable Beyond Visual Line of Sight (BVLOS) operations for Unmanned Aircraft Systems (UAS) within an Atypical Air Environment (AAE). While the initiative is commendable for promoting innovation, the policy, as currently drafted, presents several challenges:
– Ambiguity in Definitions: The lack of precise definitions for key terms like AAE may lead to inconsistent application and legal uncertainty.
– Operational Burdens: Requirements such as pre-flight notifications, electronic conspicuity, and high-intensity lighting may impose significant burdens on operators, especially small and medium enterprises (SMEs).
– Potential Stifling of Innovation: The cumulative effect of stringent requirements may deter new entrants and hinder technological advancement.
– Legal Efficacy: For the policy to have legal effect, certain elements need to be codified into law or regulations.

2. Issues for Drone Operators

a. Ambiguity in Definition of Atypical Air Environment (AAE)
– Lack of Clarity: The document does not provide a clear, legal definition of an AAE, leading to potential inconsistencies in interpretation.
– Examples vs. Definitions: Providing examples (e.g., within 100ft of a building) without a firm definition creates uncertainty for operators attempting to comply.

b. Operational Requirements
– Pre-Tactical Flight Route Notification:
– Administrative Burden: Requiring Notices to Airmen (NOTAMs) for each operation may be impractical for frequent or short-duration flights.
– Coordination Complexity: Mandatory coordination with multiple stakeholders (e.g., military, emergency services) increases complexity.

– Electronic Conspicuity (EC):
– Equipment Availability: ADS-B equipment operating on 978 MHz UAT is not widely used in the UK, making compliance challenging.
– Licensing Issues: Reliance on OFCOM’s Innovation and Trial licensing procedures adds uncertainty and administrative hurdles and no doubt costs.

– High-Intensity Anti-Collision Lighting:
– Technical Challenges: The requirement may not be feasible for small UAS due to weight and power constraints.
– Cost Implications: Additional equipment increases operational costs, affecting profitability and competitiveness.

– Containment Solutions:
– Technical Barriers: Implementing robust geo-caging or equivalent systems may be technologically and financially prohibitive for some operators.

c. Application Process Limitations
– Single Site Per Submission:
– Operational Inefficiency: Limiting applications to one site may slow down deployment and increase administrative overhead.

d. Evolving Policy and Regulatory Uncertainty
– Continuous Review:
– Investment Risk: Operators may be hesitant to invest in compliance if policies are subject to change.
– Lack of Legal Certainty:
– Enforceability Issues: As a policy concept rather than law, operators may face legal ambiguities in enforcement and compliance.

3. Potential Impacts on the Drone Industry

a. Stifling Innovation and Market Entry
– Barrier to Entry: Stringent requirements may discourage startups and SMEs from entering the market.
– Reduced Experimentation: High compliance costs limit the ability to test new technologies and operational models.

b. Competitive Disadvantages
– Favoring Large Operators: Well-resourced companies are better equipped to meet the requirements, potentially leading to market monopolisation.

c. International Disparities
– Inconsistency with Global Standards: Reliance on U.S. standards (e.g., RTCA DO-282C) may create conflicts with other international regulations, affecting operators engaged in cross-border activities.

4. Recommendations for Amendments

a. Clarify Definitions and Parameters
– Precise Definition of AAE:
– Legal Clarity: Provide a clear, legally binding definition of AAE to reduce ambiguity.
– Criteria Establishment: Set specific parameters (e.g., exact distances, types of infrastructure) to qualify as an AAE.

b. Proportionality in Operational Requirements
– Risk-Based Approach:
– Scaled Requirements: Tailor operational requirements based on the risk profile of the UAS operation (e.g., size, weight, location).
– Exemptions for Low-Risk Operations:
– Simplify Compliance: Allow for exemptions or reduced requirements for operations posing minimal risk.

c. Streamline Application Process
– Multiple Sites Per Application:
– Administrative Efficiency: Permit applications covering multiple sites where appropriate, reducing bureaucratic hurdles.
– Standardised Procedures:
– Transparency: Develop clear guidelines and timelines for application processing.

d. Address Electronic Conspicuity Challenges
– Equipment Standardisation:
– Market Availability: Collaborate with manufacturers to ensure ADS-B equipment is accessible and affordable.
– Licensing Simplification:
– Permanent Licensing Arrangements: Work with OFCOM to establish permanent, streamlined licensing procedures for 978 MHz UAT.

e. Provide Flexibility in Mitigation Measures
– Alternative Solutions:
– Innovation Encouragement: Allow operators to propose alternative methods to achieve safety outcomes.
– Technology Neutrality:
– Avoid Prescriptive Requirements: Focus on performance outcomes rather than prescribing specific technologies.

f. Enhance Stakeholder Engagement
– Consultation Processes:
– Inclusive Policy Development: Engage with a broad range of stakeholders, including SMEs and industry groups.
– Support and Guidance:
– Educational Resources: Provide operators with clear guidance and training materials to aid compliance.

g. Align with UK Standards
– Develop Domestic Standards:
– Consistency: Establish UK-specific standards for technical requirements like anti-collision lighting.
– International Harmonisation:
– Global Compatibility: Ensure new standards are compatible with international regulations to facilitate cross-border operations.

5. Legal Requirements for Effective Implementation

a. Codification into Law
– Regulatory Framework:
– Statutory Instruments: Incorporate key policy elements into UK aviation law to provide legal enforceability.
– Amendments to Existing Regulations:
– Regulation (EU) 2019/947 Adaptation: Modify existing regulations to accommodate AAE operations and associated requirements.

b. Legal Certainty and Enforcement
– Clear Obligations:
– Operator Compliance: Define legal obligations clearly to ensure operators understand requirements.
– Enforcement Mechanisms:
– Penalties and Sanctions: Establish clear enforcement protocols for non-compliance to uphold safety standards.

6. Additional Relevant Points for the CAA

a. Balancing Safety with Innovation
– Proportional Regulation:
– Innovation Friendly: Ensure that safety regulations do not unnecessarily hinder technological advancement.
– Risk Management:
– Data-Driven Policies: Use empirical data to inform policy adjustments, maintaining safety without over-regulation.

b. Data Privacy and Confidentiality
– Data Handling Policies:
– Privacy Protection: Develop clear guidelines on data usage, storage, and sharing to protect operators’ proprietary information.

c. Future-Proofing Regulations
– Adaptive Frameworks:
– Technological Evolution: Design policies flexible enough to accommodate future technological developments.
– Regular Reviews:
– Stakeholder Feedback: Implement mechanisms for ongoing consultation and policy refinement.

d. International Cooperation
– Global Best Practices:
– Information Sharing: Engage with international aviation authorities to align policies and share lessons learned.
– Cross-Border Operations:
– Harmonized Regulations: Facilitate international drone operations by harmonizing standards where possible.

7. Conclusion

The CAA’s initiative to introduce the concept of Atypical Air Environment for BVLOS operations is a progressive step towards integrating UAS into the national airspace. However, without careful consideration and amendments, the policy may inadvertently stifle innovation and impose undue burdens on operators.
By clarifying definitions, scaling operational requirements appropriately, streamlining processes, and codifying necessary elements into law, the CAA can foster a regulatory environment that promotes both safety and innovation. Collaboration with industry stakeholders, legal experts, and technology providers will be crucial in refining the policy to achieve its intended objectives.

Recommendations Summary:

1. Clarify Definitions: Provide precise legal definitions for AAE and other key terms.
2. Proportional Requirements: Scale operational requirements based on risk assessments.
3. Streamline Processes: Allow multiple sites per application and simplify procedures.
4. Address EC Challenges: Ensure equipment availability and simplify licensing.
5. Flexibility in Mitigations: Permit alternative safety solutions and avoid prescriptive technologies.
6. Stakeholder Engagement: Enhance consultation and provide guidance resources.
7. Align Standards: Develop UK-specific technical standards and harmonise internationally.
8. Legal Codification: Incorporate essential policy elements into law for enforceability.
9. Balance Safety and Innovation: Maintain safety without hindering technological progress.
10. Protect Data Privacy: Establish clear data handling and confidentiality policies.
By implementing these recommendations, the CAA can create a robust regulatory framework that ensures safety while encouraging the growth and innovation of the UK’s drone industry.

8. Comparison with EASA PDRA03 and Lessons for the UK
Comparing the CAA’s position with the European Union Aviation Safety Agency’s (EASA) Pre-Defined Risk Assessment number 03 (PDRA03) reveals both opportunities and challenges for UK drone regulation. EASA’s PDRA03 offers a structured, risk-based framework that allows operators to self-declare compliance with specific conditions, reducing administrative burdens and accelerating operational approvals. This approach supports drone operators by providing clear guidelines while fostering innovation through flexibility in operations such as autonomous flights, multi-UAV control, and operations beyond visual line of sight (BVLOS) under certain conditions. In contrast, the CAA’s policy concept imposes more prescriptive requirements, such as mandatory NOTAM submissions for each operation and specific technical equipment like ADS-B transceivers, which may be unnecessary and bureaucratic for certain low-risk operations. The UK drone industry could benefit from adopting elements of the EASA PDRA03 by implementing a more proportionate, risk-based regulatory framework that emphasises operator declarations and standardised procedures. This would streamline the approval process, reduce administrative overheads, and encourage innovation while maintaining safety. Learning from the EU’s experience, the CAA can enhance its policies to better support the growth of the UK drone industry by embracing flexibility, reducing unnecessary bureaucratic requirements, and aligning more closely with international best practices.

Richard Ryan is an experienced drone lawyer specialising in unmanned aircraft systems (UAS) and aviation law. He provides expert legal guidance on regulatory compliance, licensing, and operational issues to clients navigating the complexities of drone technology.
Disclaimer: This blog is for informational purposes only and does not constitute legal advice. For legal counsel regarding specific situations, please consult a qualified drone lawyer.

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Will local authorities become airspace planners?

zeroabove — Mon, 10 Feb 2020 10:51:31 +0000

Local authorities need to have a clear understanding of the legislation on drones and an enforceable policy in place or they are putting themselves at risk, write Richard Ryan and Chris Gee.

Our recent research with over 350 local authorities confirmed that councils do not have appropriate policies in place for drones and where there is a policy in place, it is not consistent with CAA regulations. We did not find a single policy that was accurate, up to date or enforceable.

Drones are here to stay, and the number of drones and unmanned aircraft is forecast to grow rapidly for both recreational use and commercial operations. Local authorities have a significant role to play in promoting the safe use of drones and creating an environment that supports the economic growth of the sector. We also believe that local authorities could have a very interesting role managing the governance of lower level airspace.

Airspace

Airspace is a national asset that needs to be shared in the most effective and efficient way to meet the overall needs of the UK. The biggest challenge to the future of unmanned aviation is public perception. The battleground here will be about airspace governance – the policies and rules that need to be put in place such that the benefits of unmanned aviation are seen to outweigh the perceived risks and nuisance.

The CAA is the regulator for the UK airspace structure and is the only organisation that can authorise changes to the structure of airspace. This works well for traditional aviation and there is an airspace change process that enables airports and our national air traffic control provider to request changes to the airspace structure. This change process is well defined and involves public consultation with local communities. It works effectively for governing higher-level airspace and airspace around airports.

However, lower level airspace that will be occupied by delivery drones and urban air mobility services is a bit like the Wild West. As long as the remote pilot complies with the CAA regulations, then unmanned aircraft can fly wherever they like. There are further restrictions that relate to Temporary Danger Areas (TDA’s) whereby drones can fly Beyond Visual Line of Sight (BVLOS), but this is not a viable option for scaling to meet the future volume of traffic.

There is a bigger picture that needs to be addressed around the governance of lower level airspace. Who decides that it is acceptable for unmanned aircraft to fly over the local parish graveyard? Who determines that 60 flights an hour at night over my house is acceptable when the flight could equally fly over a parallel route? PwC’s “Building Trust in Drones” research revealed that only 31% of the UK public feel positive towards drone technology. The biggest concern was the improper use of drones and 70% of respondents wanted routes to be registered with the CAA.

The CAA will not have the capacity nor the local knowledge to deal with this micro-managed governance of lower level airspace. We believe there will need to be a framework in place for the CAA to delegate governance of lower level airspace to a local body that can engage with the public and address their concerns, which may be varied and many; especially if we take the USA as an example. Local authorities would be well positioned to play that role.

Legislation

Drone legislation is complex with regular changes such as the mandatory drone registration scheme introduced at the end of 2019 (whereby only 60,000 registered users were recorded Dec 2019) and there will be widespread changes with the introduction of complex European Union Aviation Safety Agency (EASA) regulations in June 2020. A local authority may find it substantially more cost effective to subscribe to a policy service rather than develop and maintain one in-house. Local authorities have a significant role to play in promoting the safe use of drones, creating an environment that supports the economic growth of the sector and also facilitating the police in enforcement activities.

The safety regulations are mainly contained in Articles 94 and 95 of the Air Navigation Order (ANO) are fundamental and are referenced in CAP 393. These are safety regulations and do not encompass matters relating to privacy and security. The ANO articles set limits on where unmanned aircraft may fly and whether they can be used for commercial purposes (commercial operations) and do not necessarily include hobbyists or model flying clubs. The key ANO articles of relevance are:

There is inherent confusion within the various regulations such as Schedule 2 of the ANO defines a Small Unmanned Aircraft as follows:

“any unmanned aircraft, other than a balloon or a kite, having a mass of not more than 20kg without its fuel but including any articles or equipment installed in or attached to the aircraft at the commencement of its flight;”

Although not specified in the ANO, the CAA adopts the following definitions:

‘unmanned aircraft’ means any aircraft operating or designed to operate autonomously or to be piloted remotely without a pilot on board;

‘aircraft’ means any machine that can derive support in the atmosphere from the reactions of the air other than reactions of the air against the earth’s surface;

Policy considerations

Whilst there are significant benefits from the use of drones, given the breadth of airspace, air traffic volume and lower flying altitudes across large geographies of a local authority, the potential risks need to be understood and mitigated.

The future of unmanned aviation is evolving rapidly and local authorities should ensure that they have a lead officer responsible for implementing and maintaining appropriate policy. The policy should initially be focused on drones and include:

National context – up to date with the latest legislation and regulation as changes are announced;
Local context – relevant local airspace restrictions and permissions required to fly in these areas;
Council owned land – restrictions and opportunities for recreational flying from council owned property and land;
Commercial use of drones – facilitating the growth and economic benefits of commercial drone operations;
Exceptions – management of exceptions such as emergency services and flying clubs;
Suspicious drone activity – Reporting suspicious activity or drone usage that presents a threat to the public;
Council strategy – how the local authority intends to realise benefits from drone technology.

We advise a modern local policy that sets out a ?‘total airspace approach’ and includes proportionate local measures outside expanded flight restriction zones to ensure resident and wider public safety. A council must understand that there will be a need for special exemptions and/or permissions which, it may grant in exceptional circumstances. Where these will apply, they will primarily relate to public safety activities and accredited organisations.

Potential risks for local authorities

Our research highlights there is a general lack of understanding of the regulations and this is reflected in the lack of accurate and up to date policy across the local government sector. There are a number of very active social media groups within the drone community that share inconsistencies and misinformation provided by local authorities and organisations such as the National Trust and English Heritage. We believe it is only a matter of time before there is a test case challenging a local authority. Such a challenge would present the following risks to the local authority:

1. Significant legal costs in defending a challenge by judicial review. Legal consequences of a breach of the ultra vires rule are significant and there is much case law on this. A person who is aggrieved by a local authority’s decision may apply to the court for judicial review of the decision under Part 54 of the Civil Procedural Rules. The court may grant a successful applicant one of the following remedies against a local authority:

(a) An order quashing an ultra vires decision;

(b) An order (a prohibiting order, mandatory order or injunction) stopping an ultra vires action that is about to take place;

(d) An order making the legal position clear (a declaration).

2. Risk of other remedies available in ordinary private law High Court proceedings, namely injunctions, declarations and damages;

3. Significant and substantial negative PR.

Conclusion

It is abundantly clear that local authorities have a great opportunity to take advantage of an evolving legal position and also be much better informed. Councils can provide a much safer environment for people that enjoy open spaces and for people that enjoy flying drones. The legislative burden is increasing at an alarming rate, which means that local authorities must be able to resource accordingly. This can be expensive and time consuming. By using a conjoined policy document that is up to date and consistent with changing regulations, local authorities will substantially mitigate the risks of legal challenge.

Richard Ryan is a barrister and Chris Gee is MD Agilio and Trustee for Safer Drones.

Richard and Chris are offering all local authorities a free review of their existing drone policy or an initial free consultation to answer questions relating to the development of a new policy. Please contact chris.gee@agilio.co.uk or richard.ryan@blakistons.co.uk.

Richard is a practicing barrister and also a commercial UAV pilot (PfCO). Richard worked for the CAA UAS Unit and was responsible for all complex drone permissions in the UK from land up to space and inspected and audited drone pilots and National Qualified Entities, the first person in the UK to do so. Richard provides cogent advice on drone law to many different stakeholders in the UK and abroad.

Chris is a commercial UAV pilot (PfCO), programme manager and management consultant with 25 years’ experience helping organisations innovate through new technology including drones. He has worked extensively in local government and also has manned aviation experience having previously held a pilot’s licence.

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Letter to my MP regarding the #Drone Bill

zeroabove — Tue, 28 Jan 2020 09:11:29 +0000

Air Traffic Management and Unmanned Aircraft Bill [HL] 2019 (“the Drone Bill”)

Download the letter here.

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