Template matching tend not to be robust for this sort of application because of lighting inconsistencies, orientation changes, scale changes etc. The typical way of solving this problem is to bring in machine learning. What you are trying to do by training your own boosting classifier is one possible approach. However, I don't think you are doing the training correctly. You mentioned that you gave it 1 logo as a positive training image and 5 other images not containing the logo as negative examples? Generally you need training samples to be in the order of hundreds or thousands or more. You cannot possibly train with 6 training samples and expect it to work.
If you are unfamiliar with machine learning, here is roughly what you should do:
1) You need to collect many positive training samples (from hundred onwards but generally the more the merrier) of the object you are trying to detect. If you are trying to detect individual characters in the image, then get cropped images of individual characters. You can start with the MNIST database for this. Better yet, to train the classifier for your particular problem, get many cropped images of the characters on the bus from photos. If you are trying to detect the entire rectangular LED board panel, then use images of them as your positive training samples.
2) You will need to collect many negative training samples. Their number should be in the same order as the number of positive training samples you have. These could be images of the other objects that appear in the images you will run your detector on. For example, you could crop images of the front of the bus, road surfaces, trees along the road etc. and use them as negative examples. This is to help the classifier rule out these objects in the image you run your detector on. Hence, negative examples are not just any image containing objects you don't want to detect. They should be objects that could be mistaken for the object you are trying to detect in the images you run your detector on (at least for your case).
See the following link on how to train the cascade of classifier and produce the XML model file: http://note.sonots.com/SciSoftware/haartraining.html
Even though you mentioned you only want to detect the individual characters instead of the entire LED panel on the bus, I would recommend first detecting the LED panel so as to localize the region containing the characters of interest. After that, either perform template matching within this smaller region or run a classifier trained to recognize individual characters on patches of pixels in this region obtained using sliding window approach, and possibly at multiple scale. (Note: The haarcascade boosting classifier you mentioned above will detect characters but it won't tell you which character it detected unless you only train it to detect that particular character...) Detecting characters in this region in a sliding window manner will give you the order the characters appear so you can string them into words etc.
Hope this helps.