To be able to control those steering neurons, the HHMI researchers found a way to make them sensitive to light by incorporating genes naturally found in eyes. With those genes in place, the tools or the "optrodes" in the backpack will be able to guide the insects using pulses of light. In an interview with IEEE Spectrum, the program's lead researcher, Jesse J. Wheeler, said his team already created the first-generation version of the system, though it sounds like they haven't been able to test it yet. He said:

"In the first year of the project, we focused on developing core enabling technologies like the backpack, optrode, and synthetic biology toolkit for the dragonfly. As we begin our second year, we are preparing to equip dragonflies with our first-generation backpacks in a motion capture room that can monitor their precise flight movements as data is captured from navigation system. This will allow us to develop precise onboard tracking algorithms for autonomous navigation."

If the technique ends up viable for practical use, it could turn dragonflies into tiny surveillance systems or pollination machines. Since the key to the technology is the backpack, though, Draper believes it could also be used with honeybees and other insects of the same size.