UK rockers The 1975 used Kineseys for their motion control product on their recent tour for their album A Brief Inquiry into Online Relationships.
Lighting and visual designer Tobias Rylander enjoyed productive ongoing dialogue with the band – in particular, lead vocalist and creative director Matthew ‘Matty’ Healy, whose thoughts and ideas are at the essence of every live show’s design.
This tour featured four dramatic moving elements – three large portrait shaped video cubes and a ‘blade’ piece derived from their logo – all of which were automated using a Kinesys system supplied by Christie Lites UK.
Rylander has worked with the band since 2013 and their first album release. At the time he was working with visual and lighting artist LeRoy Bennett at Seven Design Works in LA, and the band approached the team after liking Bennetts work for Nine Inch Nails.
The 1975’s show designs will often have a visual thread to a previous iteration or campaign, and this gave rise to the three video cubes as an ‘answer’ to the monolith towers used on the road in 2015-16 for the ILWYS (I Like it When You Sleep) tour. He was thinking in terms of turning these inside out or upside down on this tour.
The Blade is a 1975 live show centrepiece and has been omnipresent in some shape or form as a vital element of visual identity, so they are constantly finding new and more exciting ways of incorporating it – or some sort of representation – into the show.
For this tour it was decided to rotate and hover it – helicopter style – above the stage and reveal it mid-show as the band’s logo then land it in one seamless movement on the downstage edge of the drum riser. The idea was to automate the cubes to ensure that they looked heavy.
However, in conceptual terms, they wanted to convey “the weight of technology” vis-à-vis social media, screen time and surveillance; the constant pressure of being on camera or onscreen.
The large cubes needed to be able to move in low enough to almost ‘threaten’ the performance as part of the narrative and their role was also to shift the architecture and form of the space. They needed to be able to pitch and twist as well as move in and out.
Two side LX trusses were also moved during the show. As the design aesthetic evolved and with the increasing complexity of rigging and automation, Simon Lawrence from Rigging Co Ltd was brought on board to consult and advise.
He worked closely with production manager Dermot Lynch and various potential vendors to find the best solutions to achieve all the movement that Rylander and Healy wanted.
Once Christie Lites was awarded the lighting and automation contract, a final decision was made to use Kinesys as the motion control product, and Jimmy Johnson was asked onboard as Kinesys expert and operator on the road, as well as to assist in finalising the designs and the Kinesys spec with both production and Christie Lites.
However, Lawrence commented that “Kinesys was always going to be the primary choice for automation on the show”.
The three portrait orientated cubes were constructed by Brilliant, and each measured 2.4 metres wide by 2.4 metres deep and was 3.6 metres high. They were made from a combination of stock and custom Winvision LED panels supplied by video supplier PRG.
Each was flown on four 1-tonne Liftket motors running with Kinesys Elevation 1+ drives, compete with 12 Kinesys LibraCELL load monitoring shackles. The two side trusses were each flown on three half-tonne Liftkets also running with Kinesys Elevation 1+s – six in total – with four LibraCELLs providing the monitoring.
Dealing with the Blade was one of Lawrence and Johnson’s biggest challenges. It is made up of 4 rows of Revolution BLADE HD LED Strip product that was used very successfully on the previous album cycle, but this time scaled up, with the 4 rows mounted into a custom aluminium frame, also constructed by Brilliant from 6 mm flat aluminium plate, castellated on the edges, then welded to create a box section.
The Blade strips were then bolted on to the box and all the cables neatly concealed behind the rear facia. The frame was made up of sections held together by over-centre catches to allow the minimal deflection they needed, and each section weighed around 650 Kgs.
It was mounted in a Litec DST tracking truss, with two upstage fixed points picking up the rear of the construct and – downstage – a combination of the DST tracking truss and drives with two more Liftket Hoists/Elevation 1+s which allowed the Blade to track over the band whilst rotating, so a total of six motors running with Kinesys Elevation 1+s and four LibraCELLs.
Keeping the fleet angle to a minimum whilst rotating the Blade meant deploying a multi-cue move “and a little bit of maths”, explained Johnson who used a Kinesys Vector control. Practice and some smart programming in Vector facilitated the seamless integration of this cue into the show, enabling Jimmy to land the Blade precisely each day – even with different roof and venue heights – onto the drum riser.
A Kinesys Array IP8 8-port 10/100 Ethernet switch was the data hub at the core of the control system, and once the schematic and cable management was designed, Jimmy built a suitable control rack to integrate each Kinesys element.
The Kinesys Mentor 308 oversaw the Estop management and this also allowed for feedback from the LibraCELLs and various spotter positions to give an overarching level of safety. Jimmy commented that while Vector can offer a “soft” stop for any unorthodox moves or weight loads, the mentor gives an overall Emergency Stop from a user-defined overload (via the Libra relays) or a spotter.
“All spotters, crew and band members were fully briefed and told that stopping the motion during a move was 100% OK if at any point they saw something untoward or it didn’t feel safe. Halting the move via a spotter or directly to the operator via our comms system was the correct procedure”, Johnson explained.
With multiple automation cues, and due to the complexity and challenges of the design, the show was run to time code ensuring cue lists were triggered at the correct time, providing the visual end results.
