Allion Labs > Consulting Service > AI Testing > In Flight Entrainment Consulting Program
In Flight Entrainment Consulting Program

In Flight Entrainment Consulting Program

During long-haul flights at 30,000 feet, the in-flight entertainment system is more than just equipment—it serves as one of the most critical touchpoints between airlines and passengers.

Allion helps airlines and manufacturers quantify intangible experience gaps, transforming every R&D investment into tangible advantages that passengers can truly perceive.

Inquiry

Allion Consulting Services:
Helping You Deliver a Superior In-Flight Experience

Allion transforms key passenger pain points into measurable technical indicators. We go beyond specification testing by realistically simulating passenger behavior and performing rigorous quality validation across complex software ecosystems, providing customers with professional issue diagnosis and technical support.

Addressing Your Technical Challenges with Proven Expertise

End-to-End Latency

Focuses on quantifying the “User Feel” of system responsiveness through millisecond-level precision.

Dynamic Touch Latency

  • Criteria: ≤ 100ms
  • Purpose: Ensures fluid UI interaction and eliminates “heavy” or lagging sensations.

Passengers perceive a “heavy” or “laggy” UI when the screen doesn’t follow their touch immediately

Allion Golden Methodology

  • High-Speed Optical Capture: Utilizing 1000fps+ high-speed cameras to capture the exact frame of physical contact vs. the first pixel change on screen.
  • Precision Frame Analysis: Automated software to calculate the millisecond gap, ensuring the result is ≤ 100ms.
  • Bottleneck Identification: Pinpoint whether the lag is caused by touch panel scanning, OS processing, or display driver refresh.
In Flight Entrainment Consulting Program

Button Response Time

  • Criteria: ≤ 80ms
  • Purpose: Measures the immediacy from physical press to system execution.

A delay between pressing a CCU button and seeing the volume/channel change creates a frustrating “disconnected” experience.

Allion Golden Methodology

  • Integrated Trigger Sync: Allion’s proprietary test rig synchronizes the electrical trigger of a button press with the high-speed video feed.
  • Jitter Stability Analysis: We don’t just measure “Average”; we perform extensive stress testing to ensure Jitter stays within ≤ 15ms, preventing unpredictable lag.
  • Tactile-to-Visual Correlation: Correlating the “Click” sensation (Tactile Force) with visual execution to ensure sensory consistency.
In Flight Entrainment Consulting Program

Sleep-to-Wake Response

  • Criteria: ≤ 200ms
  • Purpose: Verifies initial command triggers upon waking to prevent “swallowed” inputs.

When a device wakes from power-saving mode, the first command is often “swallowed” or ignored by the system, requiring multiple presses.

Allion Golden Methodology

  • Automated Wake-up Loops: Utilizing automated robots to simulate thousands of “Sleep-Wake-Command” cycles.
  • Initial Command Validation: Verifying that the system correctly registers and executes the very first command within ≤ 200ms of waking.
  • Power State Correlation: Monitoring power consumption peaks alongside response latency to ensure the SoC is fully ready for input.

Wireless Reliability

Defines stability and coverage benchmarks for high-density cabin interference environments.

Wi-Fi Coverage Strength

  • Criteria: RSSI ≥ -65 dBm
    Purpose: Ensures strong, consistent signal levels within the personal suite boundaries.

Metal cabin partitions and suite doors can cause Wi-Fi signals to drop sharply, leading to buffering during 4K streaming.

Allion Golden Methodology

  • Dynamic RSSI Monitoring: Simulating various passenger positions (sitting, lying down) and door states to ensure signal strength remains consistently ≥ -65 dBm.
  • Attenuation Analysis: Quantifying the impact of seat structures on wireless frequencies to provide antenna compensation recommendations.

Antenna Efficiency

  • Criteria: ≥ 40%
  • Purpose: Confirms optimized signal coverage and radiation patterns within the cabin.

Due to the complex internal structure of the cabin, poor antenna design results in weak signals at specific seats, causing noticeable connectivity lag.

Allion Golden Methodology

  • 3D Radiation Pattern Analysis: Visualizing the wireless signal field in a simulated cabin environment to identify and eliminate “blind spots” caused by seat structures.
  • Passive Antenna Efficiency Validation: Strictly measuring whether antenna efficiency reaches ≥ 40% to ensure the hardware maximizes coverage without increasing power consumption.
In Flight Entrainment Consulting Program

BT Pairing Accuracy

  • Criteria: Error Rate < 1%
  • Purpose: Ensures the Seat Box only pairs with adjacent headsets in crowded cabins.

When hundreds of passengers activate Bluetooth headsets simultaneously, system cross-pairing (connecting to a neighbor’s headset) or connection failure severely damages the exclusive passenger experience.

Allion Golden Methodology

  • BT Multi-User Simulation: Adjusting transmit power and proximity thresholds to guarantee the Seat Box pairs only with the headset in its designated seat.
  • Pairing Error Rate Control: Performing stress tests in extreme interference environments to ensure the pairing error rate stays < 1%, maintaining absolute connection accuracy.

User Reliability

Establishes durability benchmarks for long-haul flight wear and high-frequency usage.

High-Duty Lifecycle

  • Criteria: ≥ 2,00K Cycles
  • Purpose: Extreme durability validation for high-frequency Navigation and Gaming keys.

Navigation or gaming keys often lose their tactile “click” or fail entirely after heavy use, diminishing the premium feel of the cabin equipment.

Allion Golden Methodology

  • Extreme Stress Testing: Validating that high-use keys withstand ≥ 2,000,000 cycles of operation without failure.
  • Tactile Force Analysis: Comparing pre- and post-test “Force Profiles” to ensure the button’s physical feedback remains consistent and premium over time.
In Flight Entrainment Consulting Program

供電穩定度 (Power Delivery Stability)

  • Criteria: PD 3.0/3.1
  • Purpose: Guarantees fast-charging safety without interfering with Bluetooth audio quality.

High-power PD charging can generate electromagnetic noise, causing “buzzing” sounds or connection drops in a passenger’s Bluetooth headphones.

Allion Golden Methodology

  • PD 3.0/3.1 Compliance: Testing voltage stability under maximum load to ensure safe charging that meets global aviation standards.
  • Audio Noise Mitigation: Monitoring Bluetooth signal integrity during active charging to guarantee a pure, uninterrupted cinematic audio experience.
User Reliability Test Lab

Visual Fidelity

  • Criteria: ≥ 90% (DCI-P3)
  • Purpose: Ensures high-fidelity color reproduction for a premium cinematic experience in-flight.

Dull or inaccurate screen colors fail to do justice to the high-budget, 4K HDR content provided by airlines, leading to a subpar viewing experience.

Allion Golden Methodology

  • DCI-P3 Standard Alignment: Verifying that display panels achieve ≥ 90% DCI-P3, the gold standard for the Hollywood film industry.
  • Studio-Grade Reproduction: Ensuring high-precision color calibration, transforming the personal suite into a truly immersive private home theater.

Service Advantages:
Enhancing Quality & Performance to Strengthen Product Competitiveness

Competitive Benchmarking (Market Positioning)

Know exactly where your product stands in the global 5-star airline IFE market.

Root Cause Analysis & Optimization (Consulting)

Actionable engineering insights to fix issues during DVT/PVT, saving months of R&D rework

Performance Certification (Brand Premium)

Use quantified data to prove your premium quality to airline procurement teams

Statistical Stability & Jitter Control

Ensures the user experience remains consistent throughout the entire 15-hour flight, not just during the first 5 minutes

Inquiry Form

QA Form