"Gamification typically involves applying game design thinking to non-game applications to make them more fun and engaging. Gamification has been called one of the most important trends in technology by several industry experts. Gamification can potentially be applied to any industry and almost anything to create fun and engaging experiences, converting users into players."You might find this "Gaming Goes Mainstream" infographic interesting.
An example of an attempt to apply gamification to the pharmaceutical industry is the "Syrum" Facebook game being developed by Boehringer Ingelheim. The release of that game, however, has been delayed for nearly a year (see "Pharma & Fun, Not Oxymoronic? Here Comes Gamification!" and "'A Drug is Developed:' Easier than Launching an Educational Facebook Game about Drug Development?").
I know from first-hand experience how difficult it is to develop educational games. I started my career -- such as it is -- back in 1984 designing an educational life science personal computer-based game. It was a simulation of a frog dissection. The objective was to use the keyboard or joystick to move a simulated hand, pick up simulated instruments, and "dissect" a simulated frog and identify its organs. At the end, the user (usually a high school biology student) was challenged to reverse the process by putting the frog back together (the game aspect). If successful, the user was rewarded with a fun animation of the (simulated) frog dancing off in a top hat and cane -- no harm done (except to the frog I dissected doing research for the simulation). The codename was "Defrogger" but it was published by Scholastic as "Operation: Frog".
Operation: Frog ran on the Apple II computer, which at the time had the most advanced graphics of any personal computer on the market. It was an 8-bit computer with a screen resolution of 280x196. You could get 16 colors using a technique called "dithering." Here's a screen shot showing the frog's digestive system:
You can count the pixels without a magnifying glass! To get this level of detail from an 8-bit 16-color computer display was quite a challenge requiring planning and storyboards (I also created the graphics and wrote the screen text and user's manual). Here's the storyboard for the dissection screen, which is evidence that I actually did this more than 28 years ago (OMG!):
In my proposal to Scholastic I said that "dissection of a living animal or one stewed in formaldehyde is an unpleasant experience for many biology students and teachers alike. Not only does it require the sacrifice of many animals, it is also expensive and potentially dangerous. Consequently, many children never carry out a dissection."
Okay, I was playing it up a bit too much. However, the program was a hit. It was featured in the October 15, 1984 issue of Newsweek Magazine and played a role in a 1987 California court case in which Jenifer Graham, a brave 15-year-old high school girl, defended her right to refuse to dissect a frog. Ms. Graham suggested "she could learn just as much from models or computer graphics as her fellow students learn from the dissection of a frog. It seems incredible," said a Los Angeles reporter at the time (here), "that a school would resort to a dead frog, formaldehyde, forceps and scalpels in this age of computer graphics."
At the time, Ms. Graham was vilified. Unfortunately, although we've come a long way in terms of computer graphics and gaming, students who refuse to dissect real frogs are still vilified (see, for example, "Middle school student claims teacher bullied her over refusing to dissect frog").
For more Operation: Frog screen shots, see my Pinterest Gamification Board.
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