Your Flight
We analysed more than 1,500 data points along your route from İstanbul Airport, Arnavutköy, Istanbul to Tivat Airport, Tivat.
Air Montenegro
IST
TIV
4O401
Air Montenegro
FLIGHT
4O401
IST
İstanbul Airport
15:40
03 Mar
Now: --:-- UTC+3
26 h 50 m
TIV
Tivat Airport
15:30
04 Mar
Aircraft: e195
Altitude: 30,000ft (9.1km)
Distance: 453 nm
Duration: 26 h 50 m
AIRCRAFT
e195
ALTITUDE
30,000ft
DISTANCE
453 nm
DURATION
26 h 50 m
Times and gates subject to change. Verify with airline.
Turbulence Comfort Along Route Comfort View
Comfort Score: Combines turbulence probability (GTG forecast) with intensity (ZTI analysis).
High scores indicate both high probability AND high intensity turbulence.
Smooth
Light
Moderate
Severe
Flight Smoothness Score
9.0
/10
Smoothness
Smooth Flight
61%
Smooth
39%
Light
Notifications not available
This flight has already departed.
AI-Powered Flight Briefing
📊 1,500 data points analyzed
HIGH Confidence
Your Journey Beta
Your route takes you over the Dinaric Alps – conditions there can sometimes cause light turbulence.
Smooth Flight
We're expecting smooth conditions throughout your flight. You can sit back and relax.
Takeoff
Takeoff should feel smooth with possible light bumps, with calm conditions around the airport.
Winds Aloft
Winds at cruising altitude are about 37 knots.
Landing
Landing should feel smooth with possible light bumps with typical approach conditions.
You're in Safe Hands
If you feel nervous at any point, remember that turbulence is expected, safe, and part of normal flying. The crew is monitoring everything, and the aircraft is built to handle far more than anything you will feel. Have a safe and calm flight.
Relaxation Exercises
ZeroTurb Index (ZTI): Powered by our proprietary turbulence prediction algorithm combining atmospheric Richardson Number, wind shear analysis, temperature gradients, and geomagnetic activity for precise, real-time forecasting. Learn more
Flight Timeline 26h 50min
Maximum turbulence expected per segment
Takeoff
Light
0:30-1:00
Smooth
1:00-1:30
Smooth
1:30-2:00
Smooth
2:00-2:30
Smooth
2:30-3:00
Smooth
3:00-3:30
Smooth
3:30-4:00
Smooth
4:00-4:30
Smooth
4:30-5:00
Smooth
5:00-5:30
Smooth
5:30-6:00
Smooth
6:00-6:30
Smooth
6:30-7:00
Smooth
7:00-7:30
Smooth
7:30-8:00
Smooth
8:00-8:30
Smooth
8:30-9:00
Smooth
9:00-9:30
Smooth
9:30-10:00
Smooth
10:00-10:30
Smooth
10:30-11:00
Smooth
11:00-11:30
Smooth
11:30-12:00
Smooth
12:00-12:30
Smooth
12:30-13:00
Light
13:00-13:30
Smooth
13:30-14:00
Smooth
14:00-14:30
Light
14:30-15:00
Smooth
15:00-15:30
Smooth
15:30-16:00
Light
16:00-16:30
Smooth
16:30-17:00
Smooth
17:00-17:30
Light
17:30-18:00
Smooth
18:00-18:30
Smooth
18:30-19:00
Smooth
19:00-19:30
Smooth
19:30-20:00
Smooth
20:00-20:30
Smooth
20:30-21:00
Smooth
21:00-21:30
Smooth
21:30-21:59
Smooth
21:59-22:28
Smooth
22:28-22:57
Smooth
22:57-23:26
Smooth
23:26-23:55
Smooth
23:55-24:24
Smooth
24:24-24:53
Smooth
24:53-25:22
Light
25:22-25:51
Smooth
25:51-26:20
Smooth
Landing
Smooth
Smooth
Light
Moderate
Severe
Longer bars indicate higher turbulence intensity. Values shown are the maximum for each time segment.
Turbulence Metrics ZTI and EDR (scaled)
ZTI Scale
Smooth
<12
<12
Light
12-30
12-30
Moderate
30-45
30-45
Severe
>45
>45
EDR Scale
Smooth
<6
<6
Light
6-24
6-24
Moderate
24-42
24-42
Severe
>42
>42
Airport Weather
Departure
IST
5°C
(Now)
OVX
•
2 kt
•
IFR — Low visibility, delays likely
Arrival
TIV
6°C
(Now)
NSC
•
2 kt
•
VFR — Clear conditions, no delays expected
🌤️ Afternoon Flight
Afternoon flights may encounter more turbulence due to thermal activity as the sun heats the ground, creating rising air currents.
Regional Jet (Small)
Regional jets are smaller and lighter, so turbulence may be more noticeable to passengers. However, they are fully certified and safe for all weather conditions.
Looking for more detailed analysis?
Data Sources & Our Approach
ZeroTurb's Custom Algorithm: We've developed a proprietary
ZeroTurb Index (ZTI) algorithm that combines three meteorological indices weighted by their
predictive accuracy. This gives you transparent, passenger-focused turbulence probability instead
of vague categories.
This forecast integrates data from:
- ECMWF Open Data - Global atmospheric model (wind/temperature at 13 flight levels)
- NOAA Aviation Weather Center - Pilot Reports (PIREPs), SIGMETs/AIRMETs, TAFs
- NOAA Space Weather Prediction Center - Aurora forecasts for polar routes
- AviationStack API - Flight schedules and airline operational data
Disclaimer: This forecast is for informational purposes only. Always consult official aviation weather sources and follow ATC guidance.
How accurate are turbulence alerts? Alerts are based on updated forecast models and pilot reports, and can change as departure approaches.