SRIZFLY offers an enterprise-focused training platform built to compress learning curves and raise safety, efficiency, and mission readiness across U.S. organizations and schools.
We provide end-to-end support—from basic stick time to complex, repeatable mission scenarios for utility inspection, public safety, agriculture, mapping, and emergency response. Our team blends robust software engineering with field-tested practices so pilots gain real-world proficiency faster.
Each scenario mirrors operations: mission planning, payload workflows, data capture, and after-action reviews. That alignment helps training transfer directly to on-site performance and produces measurable outcomes—better skills, fewer incidents, and a more confident workforce.
We keep onboarding simple with a modular architecture while preserving advanced configuration for training managers. The platform’s realistic features and focused simulation make it easy for instructors to adapt sessions to pilot levels and mission types.
Key Takeaways
- Enterprise-ready: Purpose-built to scale from one classroom to multi-site deployments.
- End-to-end training: From basic handling to mission-specific scenarios.
- Operational fidelity: Scenarios mirror real workflows for direct skill transfer.
- Measurable outcomes: Improved skills, reduced incidents, faster proficiency.
- Support & ROI: Guided rollout, documentation, and responsive support to protect your investment.
Why the present matters: the state of drone simulator training in the United States
Adoption is rising for training solutions that compress learning curves while reducing field incidents and costs. U.S. organizations now favor platforms that let pilots rehearse workflows and SOPs in a controlled environment before live operations.
Training leaders want a true control feel paired with operational context: checklists, assessments, and repeatable scenarios that build consistent user experience. Education partners emphasize foundational skills so graduates enter the workforce ready to perform.
Procurement teams review data flows, consent steps, and alignment with policy and privacy requirements. Clear privacy policy and exportable reports let instructors defend budgets with measurable outcomes.
FPV-style responsiveness improves reflexes, but must be tuned to mission constraints for realistic rehearsal. We see programs expand standardized sim pathways to onboard new pilots fast without compromising safety.
- Prioritize mission fidelity: align control feel with SOPs.
- Verify compliance: data handling, consent, and policy checks.
- Measure results: time-to-competency and error reduction.
SRIZFLY at a glance: enterprise-grade scenarios that accelerate skills
SRIZFLY packages mission-ready scenarios that mirror real operations. You get training paths that move pilots from core handling to complex inspections in weeks, not months.
From basic training to complex missions: electric power, public safety, and more
We include modules for basic training, electric power inspection, public safety, agriculture, emergency and firefighting, surveying & mapping, aerial photography, and refinery inspection. Each mission pack focuses on measurable skills and field-ready tasking.
Built on robust software design, system development, and project implementation
Our engineering foundation ensures stable performance and accurate input handling under load. Scenario authoring, version control, and assessment checkpoints let instructors keep curricula current and compliant.
- Role-specific paths: inspectors, first responders, surveyors—so pilots gain relevant experience.
- Predictable hardware: support for common radio profiles and controller standards.
- Risk reduction: FPV-inspired responsiveness tuned for enterprise safety and confined-space rehearsal.
- Extensible simulation: add mission types as operations expand; our success team supports implementation playbooks.
drone simulator
SRIZFLY curates mission catalogs that mirror real-world tasks so teams train on what matters most. We design scenarios that combine realistic controls, clear mission flow, and objective assessment.
Our sim models physics that feel responsive yet predictable. That balance builds muscle memory that transfers to live flying. Instructors get modular paths that move learners from basics to mission tasks while allowing unstructured practice for confidence.
Key platform features support repeatable evaluation and scalable deployment:
- Repeatability: run the same route and conditions to benchmark results.
- Calibration: simple input-device setup for consistent controls in classrooms.
- Logs & metadata: objective performance data for coaching and compliance.
- Content management: keep mission packs current as rules and best practices evolve.
The result is a measurable training experience that turns hours into capability. We help you scale identical builds across sites so expansion is frictionless and outcomes are predictable.
Product roundup overview: where SRIZFLY fits among FPV and racing simulators
In a crowded market of FPV titles and racing games, SRIZFLY stakes a clear claim as an enterprise platform designed for measurable outcomes.
Commercial teams need repeatable missions, assessment tools, and protected settings. Entertainment titles focus on freestyle thrills and variety. We position SRIZFLY as the enterprise benchmark: mission-focused training with assessment and compliance.
Commercial vs. entertainment use cases
Entertainment delivers engagement and fun. It shines for casual racing and league simulator events.
SRIZFLY prioritizes SOP rehearsal, payload workflows, and repeatable scenarios that tie practice to business results.
Training efficacy: mission realism vs. freestyle flexibility
“High physics fidelity and low input latency make skill transfer reliable in real operations.”
We evaluate how physics, input lag, and radio profile management affect the pilot experience and operational transferability.
- Balanced settings: granular tuning with protected classroom profiles.
- Radio compatibility: controlled mappings to keep instruction consistent.
- Engagement channelled: racing modules sharpen control while missions build procedures.
FPV SkyDive snapshot: realistic flight physics, maps, and modes
FPV SkyDive blends tuned physics with diverse maps and mode options to support practice and play. The title is free-to-play and optimized for realistic input, helping pilots refine throttle control and orientation under pressure.
Modes: Racing, Freestyle, Contest, Flight School, and Track Builder give structured progression and open-ended practice. Track Builder lets instructors recreate enterprise-like lanes for repeatability.
Platforms & devices: PC, Mac, and Linux are supported. Steam requires Windows 10+ for current builds. Native controller support includes PlayStation, Xbox, and ORQA FPV.Ctrl, so setup is fast in mixed labs.
Community & reviews: All-time sentiment is Very Positive (82% of 2,274); recent scores are Mostly Positive (78% of 52). Multiplayer, leaderboards, and contest features keep engagement high while generating useful performance data.
“Optimized flight physics and creative tracks make SkyDive a practical adjunct for FPV practice.”
We view FPV SkyDive as a solid practice tool. SRIZFLY then extends that foundation into mission scripting, payload steps, and enterprise assessment.
Mobile FPV sim insights: acro/stable modes, adjustable settings, and map variety
Mobile FPV sandboxes bring tuned control modes and granular physics to pockets and classrooms alike.
We see two primary modes: acro for manual maneuvering and stable for assisted practice. Both let instructors scale difficulty and focus skills like recovery and orientation.
Settings include throttle, pitch, yaw, camera angle, weight, and angular drag. Tuning these values helps trainees learn predictable responses across maps and devices.
Handling, feedback, and practical notes
Maps range from an open stadium to tight pine forests and industrial hangars. Variety builds spatial awareness and line planning under different constraints.
User reviews mention perceived speed nerfs and throttle response changes after updates. Version 32 (Oct 23, 2024) improved performance and fixed minor bugs—but handling differences persist.
Controller support and on-screen joysticks work on most devices. Still, controllers can introduce dead zones. We recommend a quick controller check before training sessions.
- Recommendation: Lock a version for classes to ensure consistent handling.
- Recommendation: Use ad-free or enterprise builds to avoid interruptions.
- Recommendation: Document tuned profiles for cohort consistency.
| Feature | Typical Options | Enterprise Impact |
|---|---|---|
| Mode | Acro, Stable | Progressive skill paths |
| Settings | Throttle, Pitch, Yaw, Camera, Weight | Consistent handling across cohorts |
| Maps | Stadium, Forest, Hangar, Town, Ocean | Targeted scenario rehearsal |
| Controller Support | Physical radios, On-screen joysticks | Convenient, but verify dead zones |
SRIZFLY mission scenarios mapped to enterprise outcomes
SRIZFLY mission packs link task-level training to measurable field outcomes across common enterprise workflows. Each scenario focuses on repeatability, objective assessment, and rapid skill gains so teams convert classroom hours into safer operations.
Electric power inspection: repeatable routes, data capture, risk reduction
We standardize tower approaches, sensor steps, and documentation to cut site risk. Pilots run the same route until they meet pass criteria.
Public safety and emergency/firefighting: coordination and SOP rehearsal
Drills include launch protocols, area containment, comms, and joint actions with ground teams. Scenarios simulate constrained environments for realistic rehearsal.
Agriculture and surveying & mapping: precision flight and payload practice
Agriculture modules train altitude control, row alignment, and waypoint accuracy for crop monitoring. Mapping packs enforce overlap, payload checks, and metadata capture to protect project timelines.
Aerial photography and refinery inspection: stabilized orbits and confined-space drills
Photography practice covers stabilized orbits, reveal shots, and framing under wind and light changes. Refinery scenarios emphasize obstacle avoidance and safety buffers around critical assets.
- Assessment gates: measure flying skills, procedure adherence, and time-on-task.
- Practice loops: repeatable runs accelerate mastery without field exposure.
- Standard radio profiles: ensure device parity and reliable performance data.
| Mission Type | Core Task | Assessment Gate | Enterprise Outcome |
|---|---|---|---|
| Power Inspection | Tower approaches & sensor capture | Route accuracy & image quality | Reduced field risk, faster audits |
| Public Safety | Launch, containment, comms | Checklist compliance & response time | Safer coordination, clearer command |
| Agriculture & Mapping | Row alignment & overlap control | Coverage consistency & data integrity | Reliable yields and timely reports |
| Aerial Photo & Refinery | Stabilized orbits & confined-space paths | Framing accuracy & obstacle avoidance | Consistent deliverables, fewer incidents |
Flight physics and realism: matching FPV-style fidelity to training goals
Matching physics to mission goals is the difference between hobby-style play and operational readiness. We tune handling so practice maps to on-site tasks. This focus shortens learning curves and reduces risky habits.
Freestyle vs. mission-constrained physics: when to simulate limits
High-fidelity physics help pilots internalize throttle shaping, angle control, and braking. That makes movements predictable under pressure and builds lasting skills.
- We adjust simulation parameters—weight, inertia, and wind—to reflect mission realities.
- Freestyle responsiveness sharpens reflexes; mission-constrained models enforce discipline and safety.
- Racing dynamics improve reaction time and line precision that transfer to inspection and mapping passes.
Instructors pick profiles: open freestyle for reflex work or constrained missions for procedure compliance. Changes to physics are version-controlled so cohorts train on consistent baselines.
The result is a flying experience that builds durable skills while avoiding negative transfer to live operations.
Controller and transmitter support: radios, gamepads, and calibration
Consistent input hardware removes variability and speeds cohort proficiency. We design controller and transmitter workflows so every session starts predictably.
Seamless device benchmarks: SRIZFLY benchmarks compatibility against proven titles that support PlayStation, Xbox, and ORQA FPV.Ctrl. Steam builds require Windows 10+ from 2024, and native calibration tools manage rates and stick ranges.
Integration and calibration best practices
We support standardized controller profiles and robust transmitter calibration so each radio feels the same across labs. Built-in wizards guide users through stick centering, dead-zone checks, and rate tuning.
- Plug-and-play: tested driver paths for common gamepads and radios to reduce setup time.
- Profile locking: multiple mode options let instructors lock inputs for training while allowing advanced tuning for experienced pilots.
- Logs for review: control inputs are recorded for after-action analysis to link behavior to outcomes.
| Area | Support | Benefit |
|---|---|---|
| Controller Types | PlayStation, Xbox, ORQA, common gamepads | Fast lab setup, broad device parity |
| Transmitter Calibration | Stick range, dead zones, rates | Predictable handling, fewer troubleshooting steps |
| Windows Deployment | Windows 10+ via Steam (2024) | Straightforward installs and driver reliability |
| Training Profiles | Mode lock, advanced tuning, profile templates | Consistent flight experience and faster skill gains |
Practical tip: run a short pre-flight checklist—stick centering, throttle verification, and profile selection—before each session. This small habit saves instructor time and improves learner confidence.
Maps, environments, and tracks: from open stadiums to tight industrial sites
Maps and track lanes shape every training minute—choosing the right environment speeds skill transfer. We curate maps that match enterprise reality: open stadiums, pine forests, industrial hangars, towns, and oceanfront zones.
Track building vs. scenario scripting: creating repeatable training lanes
Track building engages learners with custom routes and creative turns. FPV SkyDive’s Track Builder-style tools let instructors design game-like lanes that sharpen reflexes and situational awareness.
Scenario scripting locks obstacles, timing, and evaluation. That repeatability makes every run an objective test and accelerates competence for inspection and emergency approach paths.
- Curated maps: open fields to confined indoor corridors for varied practice.
- Consistent controller profiles and visual cues across environments for predictable handling.
- Recommended lanes: inspection, mapping lines, and emergency approaches to structure progression.
- Reporting: exportable session results per map to compare performance over time.
We blend creative tracks with disciplined scripts so teams gain confidence and operational discipline. SRIZFLY keeps content fresh with new sites and obstacles to reflect evolving missions.
Freestyle and racing benefits for pilots: reflexes, throttle control, and speed management
Fast, precise flight practice builds instincts pilots use in inspection passes and tight approaches. Short, focused runs improve reaction time and spatial awareness. That makes routine tasks safer and more efficient.
Applying racing and freestyle skills to real-world procedures
Freestyle develops rapid orientation, precise throttle control, and quick corrections. Those skills support stable orbits and safe proximity work.
Racing teaches line choice, braking points, and speed discipline. Those habits translate to cleaner inspection passes and accurate mapping lanes.
“Turning creative control into repeatable drills shortens time-to-readiness and keeps learners engaged.”
- Practice modules (fly fpv) keep engagement high while introducing SOP constraints.
- Instructors balance mode selection so pilots gain instinctive control and procedural discipline.
- Speed and throttle drills focus on approach velocities and controlled deceleration in tight spaces.
- We map practice loops to deliverables—image quality, mapping overlap, and time-on-task.
| Activity | Core Benefit | Enterprise Outcome |
|---|---|---|
| Freestyle | Rapid orientation, throttle shaping | Better orbit stability, safer proximity work |
| Racing | Line choice, speed control | Efficient inspection passes, faster surveys |
| Structured Drills | Checklist integration, repeatability | Faster competence, measurable skills |
Settings that matter: rates, modes, throttle curves, and camera tilt
Settings shape how quickly pilots translate practice into reliable field performance.
We focus on a few controls that change outcomes: input rates, flight mode, throttle response, camera tilt, and basic physics tuning.
Acro and stable mode for progressive learning
Start learners in stable mode to build stick discipline and habit formation.
Once inputs are consistent, move to acro to teach advanced control and recovery.
Calibrating rates for micro drones vs. standard FPV drones
Set rates and expo by mission: smooth for inspection, more aggressive for tight obstacle work.
Adjust the throttle curve to reduce overcorrection during slow, precise moves.
Standardize radio and controller profiles for cohorts and lock them for assessments.
- Physics tuning (weight, drag) simulates payloads or battery differences.
- Micro drones profiles help indoor practice and confined-space rehearsal.
- Publish golden profiles per mission pack for reproducible runs.
- Simple sim checklist: confirm mode, rates, throttle curve, and camera tilt before flying.
- Recalibrate controller after hardware changes to avoid drift.
| Setting | Recommended Range | Training Impact |
|---|---|---|
| Mode | Stable → Acro | Progressive skill building |
| Rates & Expo | Smooth to Aggressive | Match mission demands |
| Throttle Curve | Linear or soft-top | Less overcorrection, steady altitude |
| Camera Tilt | 0°–45° | Optimal framing for inspections |
Platforms and performance: Windows, macOS, Linux, and device optimization
Performance tuning on each workstation ensures cohorts train on the same physics and handling every session. We recommend planning desktop labs around supported OS choices and clear hardware baselines so instructors spend time teaching—not troubleshooting.
System requirements cues from FPV SkyDive for desktop deployments
FPV SkyDive runs on PC, Mac, and Linux. Windows deployments via Steam require Windows 10+ starting in 2024. Typical desktop builds call for an Intel Core i5, 8–16 GB RAM, and an NVIDIA GTX 650–970 with DirectX 11 support.
Plan labs with mid-range GPUs to keep physics and frame rates stable. Match devices to scenario complexity: higher GPU headroom improves visual clarity and input responsiveness for advanced missions.
- Lock a version per semester to prevent handling changes mid-course.
- Standardize features and settings profiles across stations for consistent feel and fair assessment.
- Collect performance data—frame time and input latency—to troubleshoot before sessions.
- Confirm peripheral drivers for radios and gamepads and maintain a baseline system image for quick recovery.
| Area | Recommendation | Benefit |
|---|---|---|
| OS | Windows 10+, macOS, Linux | Cross-platform deployment options |
| Hardware | Core i5, 8–16GB, GTX 650–970 | Predictable frame rates and input timing |
| Management | Version lock & baseline image | Consistent training experience |
Document recommended baselines so expansions are plug-and-play. This approach keeps training predictable and helps you scale reliable labs across sites in the United States.
Community, leagues, and multiplayer: building pilot proficiency at scale
Structured multiplayer and ranked contests make practice purposeful for teams and individuals. Community features turn casual play into sustained training. That momentum keeps stick time high and skills improving between classes.
Leaderboards and internal league simulator formats create repeatable goals. They let programs link competitive results to mission objectives and assessments.
Multiplayer sessions teach communication and deconfliction. Those skills matter for team-based public safety and event operations.
Leaderboards, contests, and internal training leagues
Periodic contests focus pilots on precision and consistency. Instructor review of contest results and reviews highlights common weak points to target in class.
- Motivation: community features keep learners engaged outside formal sessions.
- Measurement: league simulator structure maps ranks to training gates.
- Fair play: controller standardization ensures skill is measured, not hardware.
- Talent spotting: participation stats identify candidates for advanced tracks.
“Competition channels energy into measurable skill growth and clearer training priorities.”
| Feature | Benefit | Enterprise Use | Metric |
|---|---|---|---|
| Leaderboards | Ongoing motivation | Internal progress tracking | Rank changes per month |
| Multiplayer | Team communication practice | Public safety drills | Comm clarity & deconflict incidents |
| Contests | Precision under pressure | Inspection and mapping targets | Accuracy & time-on-task |
| League structure | Repeatable assessment | Semester-long programs | Pass rates & retention |
Policy, privacy, and data handling: what buyers should verify before rollout
Buyers should confirm privacy controls and data flows before any classroom or lab deployment. Clear policy language and simple consent flows reduce risk and improve user trust.
Website cookies and consent management
Confirm the website cookie categories: necessary, functional, performance, analytical, and advertisement. Ensure users can opt in or out and that opting out is honored.
- Admin controls: ability to toggle categories to match organizational policy.
- Consent persistence: prompts that stick across logins and managed devices.
- Content delivery: options to limit tracking that may affect experience.
App data collection signals
Validate what app data is collected: location, identifiers, usage, and diagnostics. Ask whether those data points are linked to identity across devices and accounts.
- Review retention, export, and deletion options to meet compliance.
- Request audit logs, breach notification procedures, and vendor reviews.
- Lock version management so privacy-impacting changes are reviewed before rollout.
We recommend documenting disclosures for learners and scheduling periodic privacy reviews to keep your program aligned with evolving rules.
Implementation checklist for enterprises and schools
Begin with clear gates, hardware baselines, and documented practice paths so each cohort progresses predictably. This checklist turns SRIZFLY mission packs into audit-ready training that reduces field risk and shortens time-to-competency.
Define mission packs, controller standards, and assessment metrics
Map mission packs to operations: basic training, inspections, public safety, agriculture, emergency/firefighting, surveying & mapping, aerial photography, and refinery inspection.
Standardize radio and transmitter profiles so every station presents uniform inputs. Lock profiles for graded runs and publish golden settings for each mission.
Assessment metrics should measure precision, time-on-task, checklist adherence, and safety margins. Track outcomes to show fewer incidents and faster task completion.
Pilot onboarding: flight school paths and practice maps
Create a short onboarding flow: intro sim modules, a flight school path, and progressive practice maps. Start learners in guided drills, then move to scenario gates.
- Publish hardware & network guides for reliable labs.
- Schedule regular practice sessions outside class to preserve skills.
- Log sessions; use instructor reviews to tailor remediation drills.
- Embed versioning and content updates into change control.
| Item | Goal | Metric |
|---|---|---|
| Mission Pack | Operational alignment | Pass rate |
| Controller Profile | Device parity | Input variance |
| Practice Map | Progressive skill build | Time-to-proficiency |
We support rollout with playbooks and a ten-day trial to validate features and refine your program. Your success drives our roadmap.
How SRIZFLY compares: feature matrix across racing, freestyle, and mission training
Enterprise teams need predictable runs, repeatable scoring, and IT-friendly deployment — SRIZFLY delivers all three.
We focus on mission scripting, SOP rehearsal, and embedded assessment so training maps directly to field tasks. Our design emphasizes version control, standardized profiles, and instructor dashboards for clear oversight.
- Operational tasks: payload checks, route compliance, and documentation per session.
- Enterprise features: scenario analytics, exportable data, and cross-lab image management for Windows deployments.
- FPV balance: tuned responsiveness that preserves realism while enforcing safety margins.
- Control parity: radio and profile management to cut troubleshooting and variance.
- From engagement to outcomes: reviews show entertainment titles engage pilots; we convert that engagement into readiness.
- Scale ready: system development and implementation playbooks smooth rollout across sites.
| Area | Freestyle / Racing | SRIZFLY (Mission) |
|---|---|---|
| Primary goal | Speed & thrills | Procedure, assessment, compliance |
| Admin tools | Limited | Version control, dashboards, analytics |
| IT fit | Casual installs | Windows-ready, image management |
The result is a training experience that builds confidence fast and delivers measurable performance gains for fpv drones operations and broader programs.
Conclusion
Conclusion
SRIZFLY unites enterprise mission fidelity with engaging practice to accelerate pilot readiness and operational performance. Our platform pairs robust software design, system development, and project implementation so training delivers measurable field results.
You get a reliable drone simulator that standardizes skills across teams, reduces risk, and supports compliance through scenario-driven training. Implementation support and clear radio and transmitter calibration workflows keep control feel consistent across devices and sites.
Instructors benefit from assessment tools and structured content that translate directly to field outcomes. We also complement fpv practice and community energy while keeping programs mission-focused.
Ready to see the difference? Start your rollout plan and take advantage of our 10-day free trial for a risk-free evaluation.
FAQ
What is SRIZFLY and how does it improve training efficiency?
SRIZFLY is an enterprise-grade simulation platform built to accelerate pilot skills and operational readiness. We combine realistic flight physics, mission scenarios, and controller support to cut training time and improve safety—our data shows simulation-based programs can boost efficiency and retention for institutional training.
Which industries and use cases does SRIZFLY support?
We design scenarios for electric power inspection, public safety and firefighting drills, agriculture and surveying, aerial photography, and refinery and confined-space inspections. These mission packs reduce onsite risk and standardize procedures across teams.
What platforms and devices are supported?
SRIZFLY runs on Windows, macOS, and Linux and integrates with common radios, gamepads, and transmitters. We optimize performance for desktop deployments and support controller calibration for realistic input behavior.
How realistic are the flight physics and modes?
Our physics engine matches FPV-style fidelity and allows mode switching—acro and stable—so instructors can tune realism to mission goals. You can simulate constrained mission profiles or freestyle conditions for reflex and throttle training.
Can SRIZFLY replicate racing and freestyle environments?
Yes. We include dedicated maps and track-builder tools to recreate racing lanes and freestyle zones. This helps pilots build speed control, cornering, and situational awareness that transfer to enterprise tasks.
What controller and transmitter options are compatible?
We support a wide range of radios and transmitters, plus popular peripherals like PlayStation and Xbox controllers. Calibration presets and dead-zone tuning make it simple to match your fleet’s hardware.
Is there a trial or demo available?
We offer a 10-day free trial so teams can evaluate features, mission relevance, and performance risk-free. This trial demonstrates our competitive edge in features, flexibility, and cost-effectiveness.
How does SRIZFLY handle community, leagues, and multiplayer training?
The platform includes multiplayer modes, leaderboards, and contest tools to scale proficiency through internal leagues and structured assessment. These features foster engagement and measurable progress across cohorts.
What data and privacy controls are provided?
We follow strict data handling policies. Administrators control consent settings for website cookies and app telemetry—necessary, functional, analytical, and advertising categories—and limit collection to identifiers, usage metrics, and diagnostics essential for performance and support.
How do you map mission scenarios to measurable enterprise outcomes?
Each scenario includes repeatable routes, data-capture templates, and risk-reduction metrics. We work with clients to align scenarios with inspection checklists, SOPs, and assessment benchmarks so training converts to operational performance.
What customization and integration options exist for large deployments?
SRIZFLY supports scenario scripting, track building, and API integrations for learning management systems. Enterprises can define controller standards, assessment metrics, and rollout plans to match existing training frameworks.
How are settings like rates, throttle curves, and camera tilt managed?
Instructors can preset rates, throttle curves, and camera angles for progressive learning. We provide templates for micro aircraft and standard FPV setups to ensure consistent handling across pilot cohorts.
What are the system requirements for smooth performance?
Recommended specs vary by environment complexity; we advise a modern multicore CPU, discrete GPU, 16GB RAM, and up-to-date OS drivers for desktop use. Performance tuning guidance is included with the trial.
How does SRIZFLY compare with entertainment FPV and racing titles?
Unlike entertainment-focused titles, SRIZFLY prioritizes mission realism, repeatability, and enterprise analytics while retaining freestyle and racing modes for skill development. This balance yields training that meets operational standards.
Can SRIZFLY be used for assessment and certification?
Yes. The platform records flight logs, scores, and scenario outcomes to support competency assessments. Organizations can export reports for internal certification and regulatory compliance.
What support and onboarding are provided to new customers?
We offer deployment guides, instructor training paths, and dedicated account support to ensure fast adoption. Our implementation checklist helps define mission packs, controller standards, and assessment workflows.
How frequently are maps, physics updates, and features released?
We follow a regular release cadence driven by customer feedback and research. Updates include new maps, physics refinements, and device integrations to keep training aligned with evolving operational needs.
Are there options for offline or secure local deployments?
Yes. For sensitive operations, we provide secure local deployments with no external telemetry, on-premises licensing, and strict data controls tailored to government and enterprise requirements.
How do I get started or request a customized demo?
Contact our sales team to schedule a customized demo and start the 10-day free trial. We’ll help map mission requirements to training paths and provide a rollout plan that fits your organization.
