True random numbers often don't seem random to the average person since randomly generated sequences will be interpreted as structure. Are there any algorithms that generate a set of numbers that psychologically "seem" random, even though they are not?
Here is an algorithm:
The output would be "numbers that psychologically "seem" random, even though they are not".
Also, there are cognitive models of human randomness judgement. One such model (of binary sequences) is based on Kolmogorov complexity, but it won't give you an algorithm because Kolmogorov complexity in not computable. However, it might give you more ideas on finding "psychologically random numbers".
There is no such thing as a series, which - psychologically - looks random for everybody, but isn't.
We know of the experiment, when people are told to write down a random looking series of coin- or dice results. They often tend to avoid series, but why do they do so? Don't they have enough time, instruments and statistical knowledge, to produce better results? At least if you take enough students with high-school math education absolved, they should be able to detect badly made up series, given enough time and long enough series.
But even without that, a badly educated person can detect a badly made up series by a broken generator design.
Think about a dice, where you always shuffle 6 numbers (2, 6, 1, 4, 3, 5) and pick them in that order, before shuffling again (6, 3, 2, 4, 1, 5) and picking the next 6.
This approach would never lead to 3 identic numbers in series, but in some games it might be very useful, to have for example 3x6 in a row, and of course, over time, it will be apparent, that it never happens, just you used to play this game, and you know, that it normally happens 2-3 times per hour.
Another case where it very early will be obvious is roulette, where people, who believe in their faulty systems, will start to win, and break the bank very early. Such systems often rely on an assumption like "if you have a long series of black, bet on white, because it needs to happen, the more, the longer the black-series is". If you gamble with such expectations, and the generator satisfies your ideas, it will very fast be obvious to the winner, the bank and clever observers, what's going on.
Detecting a faulty RNG depends on your knowledge, on the length of the series, and on the effort you can spend on the problem, which might raise if you can win or loose much money that way.
There is no common expectation, independent of the knowledge of the audience. Even that the numbers 1 to 6 should - in the long run - occur about equally often, needs to be known, that is not known by intuition.
From short series, nobody can detect whether it is faulty or not. From longer series, a broken RNG will be detectable.
The whole idea of an intentionally broken RNG, to adjust it to badly educated prejudice, is flawed. If you need something as a music shuffler without too early repetition, search a better name for that thing.
The first thing to consider is how you are using the numbers. Flipping lots of coins will give a pretty good 50/50 split, where flipping two or three coins is apt to give you an annoying non-apparent-random 3 heads or tails too much of the time. Rolling lots of dice looking for ones will give very uneven results, sometimes with no ones at all and sometime with half the dice being ones. Rolling lots more dice will help here. Generally, the more numbers you generate, the happier people will be with them.
If you're only generating a few numbers, I'd start with truly random ones, see what annoys you, and fix it. One simple thing to do is reduce the odds of a number coming up based on how often it has come up before. Or even more simply, don't return the same number twice. But there are often subtleties. If you are returning numbers 1 through 10, but 1-4 count one way and 5-10 the other, a sequence of 123451234512345 will be very annoying (80% low, 20% high). If the ranges are 1-2 and 3-10 it would not be (you get the expected 40% low, 60% high). Worse, if you have competetive die rolls, it's the relative results that matter. The numbers from each die may look, on their own, to be random, but if, 9 times out of 10, one die rolls higher than the other, the dice will seem loaded.
There's a lot more like this. If someone is playing a game where they roll a die to see how far they move, then roll to see how much money they get, a set of rolls that would be psychologically random on their own can give someone no moves and tons of money, or vice versa, and seem seriously rigged.
So I'd generate a random number, or set of numbers, and then reject them if they don't look random enough in that particular case. (You may want to reject it some percentage of the time, or else you may be giving up randomness completely.) (If you're clever, you can adjust the odds in advance and on the fly to minimize the number of regenerations you have to do.) There isn't really a general solution to this problem.
Actually, I can think of two general solutions. One is: just don't use random numbers. The other is to generate vast quantities of them and don't let anyone look at the details of the sequence. If you have a game with 5000 soldiers on each side shooting at each other with a 10% chance of hitting, the overall effect (486 down on one side and 512 down on the other) will be very psychologically random. Just don't let anyone look at the results of, say, 10 individual shots. ("I had 30 shots and not a single hit!" "He had 3 hits in 5 shots!")
Also: I wrote the above, then realized there might be an ethical issue here. If you are generating a random map, or doing lots of other things, rigging the results of random number generation can be a very good idea. However, a player in a game may have a right to a real random number. If you have a poker game, and a real random deal gives a player a royal flush, your program has no business deciding that that's too extreme and redealing. A war game player deciding to make an attack with a supposed 50-50 chance of success should not be blindsided by the fact that, because previously he has won 3 50-50 contests in a row, his real odds are now only 20-80. The ethics aspect here could probably fill a book which I don't have time to write, but be very aware of it.
There are two requirements in your question.
You need to define both of these requirements a lot better. I propose we define the requirements like this:
I propose the following algorithm:
This would make the data appear random, while it can actually be calculated by the computer quite easily.
The RNG code below (written in c#) generates some very random looking numbers:
Here is an example of a series of numbers between 0-50 using the above class: