Discover the latest seismic technology for high-resolution imaging of complex geology
At STRYDE, we help companies acquire high-density seismic data with state-of-the-art nodal technology and advanced data processing solutions. Our cutting-edge approach has revolutionized onshore subsurface imaging, making it faster, more accurate, and more cost-effective.
In the CIS region, where vast and diverse terrains such as the Siberian tundra, desert steppes, deep snow, and swampy lowlands present significant operational challenges, STRYDE’s technology is designed to overcome these barriers.
We’ve empowered companies operating in the CIS to gather seismic data more efficiently, even in the most remote or environmentally sensitive areas, without compromising on quality.
Traditionally, onshore seismic data in the CIS region has been acquired through complex cabled geophones or large nodal devices that are restrictive, inefficient and expensive technology for conventional and high-density seismic acquisition.
The use of miniature, low-cost nodal devices like STRYDE’s Nodes™ enables companies to deploy significantly more receiver devices, efficiently, at an affordable price point.
This results in denser seismic and elimination of blind spots, helping fast-track and better reconstruction of the subsurface image during processing to deliver a high-resolution seismic images.
Discover how seismic surveys differ depending on the type of seismic sensor used. Here we show how nodal seismic sensors compare to cabled geophone arrays for a 3D seismic survey:
Learn more →
Learn more →
Learn more →
Learn more →
Fully sampled, high-resolution image uplift, to pinpoint opportunities and de-risk drilling decisions
Significantly reduced seismic survey costs
Fast-track seismic imaging to get access to interpretation ready seismic sooner
Optimize seismic crews and reduce exposure to HSE risk
The only feasible solution for high-density seismic surveys
Increased sort-domains for noise attenuation
Exploring for energy and mineral resources in Central Asia requires seismic technologies capable of operating efficiently across vast, remote, and geologically complex environments. High-resolution seismic data is essential for accurately imaging the subsurface, identifying structural traps, and reducing exploration risk. However, conventional land seismic systems are often bulky, expensive, and difficult to deploy across challenging terrain and areas with limited infrastructure.
STRYDE is transforming land seismic acquisition. We have developed the world’s smallest, lightest, and most cost-effective autonomous seismic receiver technology, designed to enable high-density seismic surveys in even the most demanding onshore environments.
STRYDE nodes allow operators to efficiently acquire ultra-high-resolution seismic data across large areas of steppe, desert, and mountainous terrain. Their compact design simplifies logistics, accelerates deployment, and reduces operational costs, making it possible to deliver superior subsurface imaging while improving productivity and safety in remote Central Asian exploration projects.
"Out of all the STRYDE Nodes™ we have deployed and retrieved in the last 24 months, we have lost less than 0.4% of the data (>99.6% data recovery).
On one project, with over 19,000 nodes deployed for 4 weeks, we recovered 100% of the data - every sample from every trace."
President, Explor
Our latest case studies, news, videos, blogs and technical papers...
Susan Nash, AAPG's Director of Innovation and Emerging Science and Technology interviewed STRYDE's Head of Business Development - LATAM, Victor Villamizar, to uncover more about some of the reasons why STRYDE's nodal technology is making seismic acquisition cheaper, easier, and less environmentally damaging than in the past.
Learn more
Learn how STYRDE enabled DNO to complete a “faster, cheaper and safer” seismic survey in Northern Iraq...
Learn more
With increased environmental, financial, and geological risks related to fracking, understanding the reservoir’s characteristics and production capability makes a significant difference between a cost-effective and successful hydrocarbon extraction, and one that leads to poor production and completion headaches, and ultimately wasted spend.
Learn more
Watch the world's largest nodal survey (166,000 channels), acquiring high-resolution seismic data, in a way that has never been done before.
Learn more
A case study demonstrating how STRYDE technology was used to conduct a microseismic seismic acquisition to help hydraulically fracture a horizontal well.
Learn more
In this blog, Kevin discusses some of the top operational challenges associated with the use of cable-based systems and offers practical methods and advice to help overcome these
Learn more
In this blog, Chris discusses the common challenges associated with achieving survey design excellence and offers insights and advice for designing an efficient and effective seismic survey.
Learn more
