Making a home for a sensor node - with a laser.

Sensor nodes need a good home if they're to last any considerable amount of time. And if they're to be deployed outdoors, they need an especially robust home.

This can be complicated. Most sensors need to be exposed to the elements to obtain good readings. But expose these electronics to the elements too much, and you'll break them.

In a pursuit of finding the right balance between price and accuracy for a sensor node for professional and community journalists, I'm fabricating a prototype using open-source hardware and software, 3D printers, and now, lasers. Fortunately the "maker" revolution makes this process more accessible than ever.

Previously I wrote about working with Arduinos and temperature sensors. Continuing on the theme of sensor nodes for journalism, here are some details on the next step in the prototyping process.

Engineering periodical profiles emerging field of drone journalism

The Technograph, a student-run publication at the University of Illinois and one of the oldest engineering periodicals in the world, profiled drone journalism in its 128th volume (spring 2013). Includes an interview with Matt Waite, journalism professor and head of Nebraska's Drone Journalism Lab:

Thanks to modern news media conditioning, whenever one hears the word “drone,” one invariably associates the word with military-operated wraiths of the night, waging covert warfare against terrorist groups. However, not all drones are weapons of war. The emerging field of drone journalism aims to use remote-controlled and autonomous robots to aid journalists in collecting information and in reporting the news...

The main advantage of using drones, for Schroyer, is “a more evidence-based approach to journalism. Getting beyond interviews and hearsay and actually getting to some data and evidence that journalists can use.”

Read the story on Technograph's website.

World's most popular consumer drone gains autonomous flight

Since it was introduced in 2010, the AR.Drone has been a success among hobbyists, hackers, engineering students, drone journalists, activists, and aspiring UAS (Unmanned Aerial Systems) operators. Produced by the French wireless products manufacturer Parrot, this camera-enabled quadrotor can be controlled over WiFi via iOS or Android-enabled phones and tablets.

This has been the go-to item for many news organizations trying to understand the new world of UAS without a tremendous investment. The Sydney Herald recently used one to help bring context to their story about privacy concerns amidst the proliferation of "drones."

A news crew in Florida also tried using an AR.Drone to get a better view of a live event, but they were chased out of the sky by angry bees.

Since launch, it has sold over 300,000 units. That's ten times the number of UAS that the FAA anticipated would by flying in American airspace... by 2020.

A selling point of the RC aircraft from the beginning has been augmented reality dogfights with other AR.Drones, facilitated by on-board image recognition. Parrot recently unveiled another addition to the drone's list of AR abilities -- a GPS receiver.