What is Time Lapse?
What do you need?
A camera & a PC
- Fungi growing
- Rusting of nails
- Evaporation of water
- Plant growing
- Seeds Germinating
- Flowers Opening
- Fruit Rotting
- Moon Trail, Star trail
- Rusting of Iron
- Passing of a day
- Growth of Nails/ Hair
- The greening of a forest
- A boil growing
- chocolate melting
- Pregnant wowan
- A Construction Site
- A Meteor shower ??
- Snow(man) melting
- A bi metallic strip ?
One of the nice things about a time lapse video is the contrast between static moving objects. This is why camera position has to be planned.
Try to select a spot (and framing) that will show some static objects and some moving ones. If you can combine between fast moving objects and slow moving objects, it is even better.
Of course all the "regular compositional rules" still apply here, so framing, thirds, foreground and background all play a part.
Size and time gap - Next thing to plan is how to take the images. Remember, you are limited both in battery life and in memory card size. Try using the smallest file you can live with pixel-wise.
As a thumb rule, it is better to take a medium sized image at best quality than a bigger sized medium quality image.
Size and Intervals
Now some math - How long do you want your final time lapse movie to be? Regular movies run at 25 frames a second. That means that every 25 pictures you take will make one second on your final movie.
Now, how long is the event that you are shooting and how long do you want the movie to be? Those parameters will define the interval between the pictures you want to take. The thumb rule is to divide the duration of the event in minutes in the duration of the final film in seconds and multiply by 2.4 - this is the interval in seconds that you want to set your intervalometer to.
For example, to record a 3.5 hours event as a minute and a half movie, we will do the following math: 3.5 hours is 210 minutes, and 1.5 minutes are 90 seconds. So 210/90*2.4 = 5.6 seconds. So set your CHDK script/intervalometer to 5.6 seconds. This also tells you that you need 2250 frames (210 minutes * 60 seconds a minute / 5.6 seconds interval). If each image is 1 meg, you'll need approximately 2.5 Gigs if flash card to store the event.
3. Take The Shots
Mount your camera
After planning where you want the camera to be, you'll need to place it. A tripod is a good option, however for my setup a NastyClamp worked better, I needed something that will not stand in that and that I can tack high at the corner of the room.
I recommend setting your camera on aperture priority, this will take care of changing light and adjust shutter speed if light is falling to low.
Setting & Running the CHDK script - (skip this if you use a dedicated intervalometer)
1. Load the interleacometer3 script and make the following settings:
2. Make sure you mark CHDK not to save RAW files - space is definitely an issue with long movies.
3. Set the time interval to whatever your calculations tell you (setting the interval takes a bit of getting used to, just like in second grade you do s1/10s of seconds, seconds and 10s of second separately. Now you are almost ready to start recording.
This is a big issue - if you want to run for a long time, you'll need every bit of battery you can master. For this I switched off the "live view" of the G9 screen and the postview after each shot. The screen is one of the major battery consumers. Luckily CHDK also let you know the status of your battery, so you know to replace it if you see that it is too low.
Now it is time to shoot. I like to keep the artificial shutter-click sound. Firstly, it gives some museum/art feeling to the whole production. More importantly, it provides constant feedback that your camera is working - battery is not depleted and memory card is not full.
4. Prepare For Video
This part is easy - all you need to do is rename the images so FFmpeg can accept them. FFmpeg needs your pictures to be named with names like my_image_0001, my_image_0002, my_image_0003 and so on. I used irfanview's great batch name conversion for this (see download links at the top of the post):
Open the first image and press B to enter batch mode. Select "Batch Rename" and on the "name pattern" box type "img_####". Make sure you designate a new folder for the output. Then select all the images in the shootout folder and click "Start Batch" - after a few seconds, you'll have a new folder with your images named in the correct sequence.
5. Create The Video
I used a freeware called FFmpeg - it takes a bit of
geeky black window typing dos command magic, but it is super fast, has tons of options and is very simple to operate on the basic level.
Once you have the images named correctly, use the following command: ffmpeg -f image2 -i img_%04d.jpg my_new_video.mpg.
See above what I got from combining all the images from the moving day. (There are several "interesting" frames planted on the video, see if you can spot them.
I am the dude with the green T who looks like he doesn't have a clue.