#Geospatial Software Engineer
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#WageCageLocations
To proceed with generating or acquiring maps of underground tunnels or systems for 1183 Western Ave S, Los Angeles, CA, here’s a detailed guide you can follow:
Access Public Records
Contact Local Authorities: Reach out to the Los Angeles Department of Public Works or the Bureau of Engineering. They maintain maps and schematics of underground utilities and tunnel systems.
Website: LA Public Works
Phone: 311 (or 213-473-3231 outside Los Angeles)
Request Public Records: Submit a Public Records Act (PRA) request to obtain detailed maps of underground utilities or tunnels.
Use Geospatial Tools
Google Earth Pro:
Download Google Earth Pro (free) from here.
Search the address and explore its 3D and historical imagery layers.
Overlay city planning or utility map data if available.
ArcGIS:
Use GIS mapping software such as ArcGIS to access local underground data layers.
Some public libraries or universities provide free access to ArcGIS.
USGS Resources:
Check the U.S. Geological Survey (USGS) for geospatial data in the area: USGS Website.
Search their databases for subsurface or geological maps.
Hire Professionals
Geophysical Survey Services: Companies offering ground-penetrating radar (GPR) services can map underground tunnels, pipelines, and utilities. Examples:
GSSI (Ground Penetrating Radar Systems, Inc.)
Local geotechnical or engineering firms.
Surveying Experts: Licensed surveyors can create precise subsurface maps.
Research Historical and Urban Planning Data
Libraries and Archives:
Visit local archives or libraries like the Los Angeles Public Library. They often have historical maps and documents.
California Historical Society:
Explore their archives for historical records of tunnels or underground systems.
Collaborate with Open-Source Projects
OpenStreetMap:
Check OpenStreetMap for user-contributed data on the area.
Subterranean Mapping Communities:
Join forums or communities interested in urban exploration (e.g., Reddit's r/urbanexploration).
Final Steps
Once you've gathered relevant data, you can use tools like AutoCAD or GIS software to compile your maps. If you'd like further help with interpreting or organizing data, feel free to ask!
To proceed with generating or acquiring maps of underground tunnels or systems for 1183 Western Ave S, Los Angeles, CA, here’s a detailed guide you can follow:
Access Public Records
Contact Local Authorities: Reach out to the Los Angeles Department of Public Works or the Bureau of Engineering. They maintain maps and schematics of underground utilities and tunnel systems.
Website: LA Public Works
Phone: 311 (or 213-473-3231 outside Los Angeles)
Request Public Records: Submit a Public Records Act (PRA) request to obtain detailed maps of underground utilities or tunnels.
Use Geospatial Tools
Google Earth Pro:
Download Google Earth Pro (free) from here.
Search the address and explore its 3D and historical imagery layers.
Overlay city planning or utility map data if available.
ArcGIS:
Use GIS mapping software such as ArcGIS to access local underground data layers.
Some public libraries or universities provide free access to ArcGIS.
USGS Resources:
Check the U.S. Geological Survey (USGS) for geospatial data in the area: USGS Website.
Search their databases for subsurface or geological maps.
Hire Professionals
Geophysical Survey Services: Companies offering ground-penetrating radar (GPR) services can map underground tunnels, pipelines, and utilities. Examples:
GSSI (Ground Penetrating Radar Systems, Inc.)
Local geotechnical or engineering firms.
Surveying Experts: Licensed surveyors can create precise subsurface maps.
Research Historical and Urban Planning Data
Libraries and Archives:
Visit local archives or libraries like the Los Angeles Public Library. They often have historical maps and documents.
California Historical Society:
Explore their archives for historical records of tunnels or underground systems.
Collaborate with Open-Source Projects
OpenStreetMap:
Check OpenStreetMap for user-contributed data on the area.
Subterranean Mapping Communities:
Join forums or communities interested in urban exploration (e.g., Reddit's r/urbanexploration).
Final Steps
Once you've gathered relevant data, you can use tools like AutoCAD or GIS software to compile your maps. If you'd like further help with interpreting or organizing data, feel free to ask!
Here is a detailed prompt you can use for another AI or mapping tool capable of generating maps and schematics of underground tunnel systems:
Prompt for AI Map Generator:
"Generate a detailed map and schematic of the underground tunnel systems, utility lines, and infrastructure at and around the location 1183 Western Ave S, Los Angeles, CA. The map should include the following details:
Subsurface Layers:
Sewer systems, drainage systems, and stormwater pipelines.
Electrical, gas, and water utility lines.
Any known historical or abandoned tunnels.
Proximity:
Cover an area with a radius of 1 mile from the given location.
Highlight all connections to adjacent buildings and structures.
Visualization:
Provide both 2D and 3D views of the underground systems.
Use different colors and layers for various types of infrastructure (e.g., blue for water lines, yellow for gas lines, etc.).
Include a legend for easy identification of systems.
Additional Features:
Annotate points of interest (e.g., access points, manholes, maintenance tunnels).
Show depth levels for each layer (e.g., sewer system at 15 feet, utility lines at 10 feet).
Overlay the map with the above-ground street grid for reference.
Data Integration:
Incorporate open-source geospatial data, city planning maps, and historical records if available.
Highlight discrepancies between historical and current data.
Output Formats:
Provide the map in standard formats like GeoTIFF, DWG (AutoCAD), and PDF for versatility.
Include a .KMZ file for visualization in Google Earth."
This prompt provides clear instructions and context for generating a comprehensive underground map. Use it with AI tools like GIS-enabled platforms, geospatial mapping AIs, or simulation software. Let me know if you need adjustments or more guidance!
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🌟 Life at Sabaragamuwa University of Sri Lanka: A Journey Beyond Academics
🔗 Official Website: https://www.sab.ac.lk/
Nestled in the beautiful hill country of Belihuloya, the Sabaragamuwa University of Sri Lanka (SUSL) is not just an institution for higher education—it’s a complete ecosystem for knowledge, innovation, and personal growth. With a unique blend of nature, academic excellence, cultural diversity, and student engagement, SUSL has established itself as one of the most vibrant universities in Sri Lanka.
Let’s explore what makes this university a truly holistic learning experience.
🎓 Academic Excellence Through Diverse Faculties
SUSL houses several faculties, each tailored to deliver industry-relevant, research-based, and skill-oriented education. Here’s a deeper look:
🧑🌾 Faculty of Agricultural Sciences
Preparing students for climate-resilient and technology-driven agriculture, this faculty integrates practical fieldwork, lab-based research, and modern agritech practices.
Specialized areas: Agribusiness Management, Plantation Management, and Crop Science.
Facilities include a university farm, greenhouses, and plant tissue labs.
💼 Faculty of Management Studies
This faculty is a hub of innovation, leadership, and entrepreneurship.
Offers degrees in Marketing, Accounting, Business Management, and Tourism.
Strong industry links, internship programs, and a business incubation center help bridge theory and practice.
🖥️ Faculty of Computing
A newly established and rapidly growing faculty, offering degrees in cutting-edge areas like:
Software Engineering
Computer Science
Data Science
Information Systems Students benefit from modern computing labs, coding competitions, and project-based learning in collaboration with the tech industry.
⚙️ Faculty of Applied Sciences
Focused on STEM (Science, Technology, Engineering, Mathematics) education and research.
Departments include Physical Sciences, Environmental Sciences, and Biological Sciences.
Advanced laboratory facilities and field studies enhance hands-on learning.
🧪 Faculty of Geomatics
Unique to SUSL, this faculty specializes in geospatial technologies and earth sciences.
Offers degrees in Surveying Sciences and GIS (Geographic Information Systems).
Prepares students for careers in surveying, urban planning, disaster management, and remote sensing.
🌍 Faculty of Social Sciences & Languages
Equipping students to address social, cultural, economic, and political challenges through:
Degrees in Sociology, Political Science, and Languages (English, Sinhala, Tamil).
Cultural awareness programs, language labs, and public speaking forums.
🛠️ Faculty of Technology
Focusing on future-ready technology disciplines, including:
Biosystems Technology
Engineering Technology
Construction Technology
Mechatronics This faculty emphasizes problem-solving, research, and design thinking in all its programs.
🌱 A Campus That Breathes Sustainability
SUSL is set amidst lush greenery, forests, and a reservoir, promoting a deep respect for the environment.
Sustainable practices include rainwater harvesting, waste management, and plastic-free zones.
Nature trails, eco-clubs, and conservation projects give students opportunities to learn from nature while preserving it.
🧑🎓 Student Life: Balance Between Study and Fun
✨ Daily Life
Classes in the morning
Study groups under trees or by the lake
Canteen meals with friends
Sports and clubs in the evening
Quiet study or hostel activities at night
🌐 Cultural Diversity
With students from all over the island, SUSL celebrates:
Sinhala & Tamil New Year festivals
Multilingual debates
Intercultural nights and exhibitions This diversity builds respect, unity, and lifelong friendships.
🏆 Extra-Curricular Excellence
SUSL students shine beyond the classroom. The university supports:
Sports
Cricket, rugby, badminton, athletics, martial arts, and more
Regular inter-faculty competitions and national-level representation
Clubs & Societies
Gavel Club – for public speaking
IEEE & IT Clubs – for coding and tech
Environmental Society – for sustainability
Music, Dance, Drama Societies – for cultural expression
Rotaract & Leo Clubs – for leadership and volunteering
🏛️ Facilities & Campus Life
🏠 Hostels with a peaceful and secure environment
📚 A fully-equipped library with digital and physical resources
🧪 Modern laboratories and research centers
🍛 Affordable and clean canteens
🚌 Campus shuttle and scenic walking paths
🧑⚕️ Health Center with medical and counseling services
📶 Wi-Fi zones and tech support
🔮 Looking Ahead
Sabaragamuwa University is committed to global expansion and academic innovation:
Partnerships with international universities
Smart classrooms and e-learning systems
Plans for new faculties and programs
Research funding and student entrepreneurship support
💬 Final Words
Sabaragamuwa University of Sri Lanka is more than a place to earn a degree—it's a place to grow, lead, and inspire. From nature lovers to tech enthusiasts, from business leaders to language experts, SUSL has something for everyone.
✅ Visit the official website to explore more: https://www.sab.ac.lk/
— Written by Rashmi Tharaka Sewwandi
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Sabaragamuwa University: Where Education Meets Tranquility and Innovation
Sabaragamuwa University of Sri Lanka (SUSL) is a renowned public university located in the scenic town of Belihuloya, Balangoda. Established in 1991 and officially recognized as a full university in 1995, SUSL has grown into a hub of academic excellence, research, and community development.
🌿 Campus & Environment
Nestled amidst the lush greenery of Sri Lanka’s central highlands, the university offers a peaceful and inspiring environment ideal for learning and research. The natural surroundings not only support academic activities but also provide a calming atmosphere for students and staff.
🎓 Academic Structure
SUSL consists of several faculties, each focusing on specialized fields of study:
Faculty of Agricultural Sciences – Focused on modern agricultural practices and innovation.
Faculty of Applied Sciences – Offers diverse programs in environmental science and technology.
Faculty of Geomatics – Specializes in surveying, mapping, and geospatial technologies.
Faculty of Management Studies – Provides business and management education.
Faculty of Social Sciences & Languages – Focuses on human behavior, societies, and languages.
Faculty of Medicine – Aims to develop skilled and compassionate healthcare professionals.
Faculty of Graduate Studies – Coordinates all postgraduate programs across faculties.
Faculty of Computing – Offers cutting-edge programs in Computer Science, Software Engineering, and Information Systems, preparing students for careers in the digital world.
Faculty of Technology – Focuses on technological education, integrating theory with hands-on experience in fields like Engineering Technology and Biosystems Technology.
🔬 Research & Innovation
SUSL is committed to advancing knowledge through impactful research. It supports interdisciplinary research, encourages innovation, and works with industry partners to bring new ideas to life. The university also values indigenous knowledge and promotes blending traditional wisdom with modern scientific practices.
🌐 Community Engagement & Outreach
The university actively contributes to society through various outreach initiatives. It offers distance learning opportunities, conducts career guidance programs, and supports local development through education and awareness campaigns. These efforts reflect SUSL’s mission to make higher education more inclusive and meaningful.
🏅 Student Life & Extracurriculars
Student life at SUSL is vibrant and enriching. The university supports a wide range of extracurricular activities, including sports, cultural events, and student-led clubs. Participation in national university games and inter-university events helps foster teamwork, leadership, and holistic development.
For more information, visit the official SUSL website.
#SabaragamuwaUniversity#SUSL#SabaragamuwaPride#LifeAtSUSL#SriLankaUniversities#UniversityLife#CampusVibes#HigherEducation
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Software in Intelligence Community - Lodi Palle
According to Lodi Palle Software engineering plays a crucial role in the intelligence community, which comprises various government agencies and organizations responsible for collecting, analyzing, and disseminating intelligence to support national security and decision-making.
Here are some ways in which software engineering is involved in the intelligence community:
Data Collection and Processing: The intelligence community deals with vast amounts of data from multiple sources, such as satellites, sensors, social media, and more. Software engineers design systems to collect, store, and process this data efficiently and securely. They also work on data integration and data cleaning to ensure accuracy and consistency.
Signal Processing and Analysis: Signal processing techniques are essential in extracting meaningful information from raw data, such as audio, images, and communications intercepts. Software engineers develop algorithms and software tools to analyze and interpret these signals, aiding in intelligence gathering and surveillance activities.
Data Analytics and Machine Learning: Machine learning and data analytics are increasingly crucial in the intelligence community. Software engineers build and maintain machine learning models that can detect patterns, identify anomalies, and predict potential threats based on historical data and real-time inputs.
Cybersecurity: Protecting sensitive information and critical infrastructure from cyber threats is a top priority for the intelligence community. Software engineers develop and implement robust cybersecurity solutions to defend against cyberattacks and maintain the confidentiality, integrity, and availability of data.
Communication and Collaboration Tools: Effective communication and collaboration are essential within the intelligence community and with external partners. Software engineers create secure communication platforms and collaboration tools to facilitate information sharing while ensuring data remains protected.
Intelligence Analysis Tools: Software engineers design and develop specialized software tools to aid intelligence analysts in their work. These tools may include data visualization software, link analysis tools, and intelligence fusion platforms to help analysts draw insights from complex data sets.
Cryptanalysis: In the realm of cryptography, software engineers work on breaking codes and ciphers used by adversaries. This field involves developing algorithms and tools to decipher encrypted communications and uncover valuable intelligence.
Automation and Efficiency: Automation plays a critical role in streamlining intelligence processes. Software engineers develop scripts, workflows, and automation tools to enhance efficiency, reduce manual tasks, and accelerate analysis and decision-making.
Geospatial Intelligence: Geospatial intelligence involves analyzing and interpreting data based on location information. Software engineers develop geospatial analysis tools to identify patterns, track movements, and provide geolocation information for intelligence purposes.
Overall, software engineering enables the intelligence community to leverage technology effectively, process vast amounts of data, and gain valuable insights to protect national security and make informed decisions. It is a dynamic and evolving field, driven by the need to stay ahead of emerging threats and challenges in an ever-changing global landscape.
#lode palle#lodi palle#lode emmanuel palle#software engineer#emmanuel palle#lode emmanuelle palle#emmanuelpalle#lodi emmanuel palle
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This Week in Rust 513
Hello and welcome to another issue of This Week in Rust! Rust is a programming language empowering everyone to build reliable and efficient software. This is a weekly summary of its progress and community. Want something mentioned? Tag us at @ThisWeekInRust on Twitter or @ThisWeekinRust on mastodon.social, or send us a pull request. Want to get involved? We love contributions.
This Week in Rust is openly developed on GitHub and archives can be viewed at this-week-in-rust.org. If you find any errors in this week's issue, please submit a PR.
Updates from Rust Community
Official
Announcing Rust 1.72.1
Foundation
Announcing the Rust Foundation’s Associate Membership with OpenSSF
Project/Tooling Updates
This month in Servo: upcoming events, new browser UI, and more!
Pagefind v1.0.0 — Stable static search at scale
Open sourcing the Grafbase Engine
Announcing Arroyo 0.6.0
rust-analyzer changelog #199
rumqttd 0.18.0
Observations/Thoughts
Stability without stressing the !@#! out
The State of Async Rust
NFS > FUSE: Why We Built our own NFS Server in Rust
Breaking Tradition: Why Rust Might Be Your Best First Language
The Embedded Rust ESP Development Ecosystem
Sifting through crates.io for malware with OSSF Package Analysis
Choosing a more optimal String type
Changing the rules of Rust
Follow up to "Changing the rules of Rust"
When Zig Outshines Rust - Memory Efficient Enum Arrays
Three years of Bevy
Should I Rust or should I go?
[audio] What's New in Rust 1.68 and 1.69
[audio] Pitching Rust to decision-makers, with Joel Marcey
Rust Walkthroughs
🤗 Calling Hugging Face models from Rust
Rust Cross-Compilation With GitHub Actions
tuify your clap CLI apps and make them more interactive
Enhancing ClickHouse's Geospatial Support
[video] All Rust string types explained
Research
A Grounded Conceptual Model for Ownership Types in Rust
Debugging Trait Errors as Logic Programs
REVIS: An Error Visualization Tool for Rust
Miscellaneous
JetBrains, You're scaring me. The Rust plugin deprecation situation.
Crate of the Week
This week's crate is RustQuant, a crate for quantitative finance.
Thanks to avhz for the self-suggestion!
Please submit your suggestions and votes for next week!
Call for Participation
Always wanted to contribute to open-source projects but did not know where to start? Every week we highlight some tasks from the Rust community for you to pick and get started!
Some of these tasks may also have mentors available, visit the task page for more information.
r3bl_rs_utils - [tuify] Use nice ANSI symbols instead of ">" to decorate what row is currently selected
r3bl_rs_utils - [all] Use nu shell scripts (not just or fish) and add Github Actions to build & test on mac & linux
r3bl_rs_utils - [tuify] Use offscreen buffer from r3bl_tui to make repaints smooth
Ockam - make building of ockam_app create behind a feature flag
Ockam - Use the Terminal to print out RPC response instead of printlns
Hyperswitch - add domain type for client secret
Hyperswitch - separate payments_session from payments core
Hyperswitch - move redis key creation to a common module
If you are a Rust project owner and are looking for contributors, please submit tasks here.
Updates from the Rust Project
342 pull requests were merged in the last week
#[diagnostic::on_unimplemented] without filters
repr(transparent): it's fine if the one non-1-ZST field is a ZST
accept additional user-defined syntax classes in fenced code blocks
add explicit_predicates_of to SMIR
add i686-pc-windows-gnullvm triple
add diagnostic for raw identifiers in format string
add source type for invalid bool casts
cache reachable_set on disk
canonicalize effect vars in new solver
change unsafe_op_in_unsafe_fn to be warn-by-default from edition 2024
closure field capturing: don't depend on alignment of packed fields
consistently pass ty::Const through valtrees
coverage: simplify internal representation of debug types
disabled socketpair for Vita
enable varargs support for AAPCS calling convention
extend rustc -Zls
fallback effects even if types also fallback
fix std::primitive doc: homogenous → homogeneous
fix the error message for #![feature(no_coverage)]
fix: return early when has tainted in mir pass
improve Span in smir
improve PadAdapter::write_char
improve invalid let expression handling
inspect: closer to proof trees for coherence
llvm-wrapper: adapt for LLVM API changes
make .rmeta file in dep-info have correct name (lib prefix)
make ty::Const debug printing less verbose
make useless_ptr_null_checks smarter about some std functions
move required_consts check to general post-mono-check function
only suggest turbofish in patterns if we may recover
properly consider binder vars in HasTypeFlagsVisitor
read from non-scalar constants and statics in dataflow const-prop
remove verbose_generic_activity_with_arg
remove assert that checks type equality
resolve: mark binding is determined after all macros had been expanded
rework no_coverage to coverage(off)
small wins for formatting-related code
some ConstValue refactoring
some inspect improvements
treat host effect params as erased in codegen
turn custom code classes in docs into warning
visit ExprField for lint levels
store a index per dep node kind
stabilize the Saturating type
stabilize const_transmute_copy
make Debug impl for ascii::Char match that of char
add minmax{,_by,_by_key} functions to core::cmp
specialize count for range iterators
impl Step for IP addresses
add implementation for thread::sleep_until
cargo: cli: Add '-n' to dry-run
cargo: pkgid: Allow incomplete versions when unambigious
cargo: doc: differentiate defaults for split-debuginfo
cargo: stabilize credential-process and registry-auth
cargo: emit a warning for credential-alias shadowing
cargo: generalise suggestion on abiguous spec
cargo: limit cargo add feature print
cargo: prerelease candidates error message
cargo: consolidate clap/shell styles
cargo: use RegistryOrIndex enum to replace two booleans
rustfmt: Style help like cargo nightly
clippy: ignore #[doc(hidden)] functions in clippy doc lints
clippy: reuse rustdoc's doc comment handling in Clippy
clippy: extra_unused_type_parameters: Fix edge case FP for parameters in where bounds
clippy: filter_map_bool_then: include multiple derefs from adjustments
clippy: len_without_is_empty: follow type alias to find inherent is_empty method
clippy: used_underscore_bindings: respect lint levels on the binding definition
clippy: useless_conversion: don't lint if type parameter has unsatisfiable bounds for .into_iter() receiver
clippy: fix FP of let_unit_value on async fn args
clippy: fix ICE by u64::try_from(<u128>)
clippy: trigger transmute_null_to_fn on chain of casts
clippy: fix filter_map_bool_then with a bool reference
clippy: ignore closures for some type lints
clippy: ignore span's parents in collect_ast_format_args/find_format_args
clippy: add redundant_as_str lint
clippy: add extra byref checking for the guard's local
clippy: new unnecessary_map_on_constructor lint
clippy: new lint: path_ends_with_ext
clippy: split needless_borrow into two lints
rust-analyzer: field shorthand overwritten in promote local to const assist
rust-analyzer: don't skip closure captures after let-else
rust-analyzer: fix lens location "above_whole_item" breaking lenses
rust-analyzer: temporarily skip decl check in derive expansions
rust-analyzer: prefer stable paths over unstable ones in import path calculation
Rust Compiler Performance Triage
A pretty quiet week, with relatively few statistically significant changes, though some good improvements to a number of benchmarks, particularly in cycle counts rather than instructions.
Triage done by @simulacrum. Revision range: 7e0261e7ea..af78bae
3 Regressions, 3 Improvements, 2 Mixed; 2 of them in rollups
56 artifact comparisons made in total
Full report here
Approved RFCs
Changes to Rust follow the Rust RFC (request for comments) process. These are the RFCs that were approved for implementation this week:
No RFCs were approved this week.
Final Comment Period
Every week, the team announces the 'final comment period' for RFCs and key PRs which are reaching a decision. Express your opinions now.
RFCs
[disposition: merge] RFC: Unicode and escape codes in literals
Tracking Issues & PRs
[disposition: merge] stabilize combining +bundle and +whole-archive link modifiers
[disposition: merge] Stabilize impl_trait_projections
[disposition: merge] Tracking Issue for option_as_slice
[disposition: merge] Amend style guide section for formatting where clauses in type aliases
[disposition: merge] Add allow-by-default lint for unit bindings
New and Updated RFCs
[new] RFC: Remove implicit features in a new edition
[new] RFC: const functions in traits
Call for Testing
An important step for RFC implementation is for people to experiment with the implementation and give feedback, especially before stabilization. The following RFCs would benefit from user testing before moving forward:
No RFCs issued a call for testing this week.
If you are a feature implementer and would like your RFC to appear on the above list, add the new call-for-testing label to your RFC along with a comment providing testing instructions and/or guidance on which aspect(s) of the feature need testing.
Upcoming Events
Rusty Events between 2023-09-20 - 2023-10-18 🦀
Virtual
2023-09-20 | Virtual (Cardiff, UK)| Rust and C++ Cardiff
SurrealDB for Rustaceans
2023-09-20 | Virtual (Vancouver, BC, CA) | Vancouver Rust
Nightly Night: Generators
2023-09-21 | Virtual (Charlottesville, NC, US) | Charlottesville Rust Meetup
Crafting Interpreters in Rust Collaboratively
2023-09-21 | Virtual (Cologne, DE) | Cologne AWS User Group #AWSUGCGN
AWS User Group Cologne - September Edition: Stefan Willenbrock: Developer Preview: Discovering Rust on AWS
2023-09-21 | Virtual (Linz, AT) | Rust Linz
Rust Meetup Linz - 33rd Edition
2023-09-21 | Virtual (Stuttgart, DE) | Rust Community Stuttgart
Rust-Meetup
2023-09-25 | Virtual (Dublin, IE) | Rust Dublin
How we built the SurrealDB Python client in Rust.
2023-09-26 | Virtual (Berlin, DE) | OpenTechSchool Berlin
Rust Hack and Learn | Mirror
2023-09-26 | Virtual (Dallas, TX, US) | Dallas Rust
Last Tuesday
2023-09-26 | Virtual (Melbourne, VIC, AU) | Rust Melbourne
(Hybrid - online & in person) September 2023 Rust Melbourne Meetup
2023-10-03 | Virtual (Buffalo, NY, US) | Buffalo Rust Meetup
Buffalo Rust User Group, First Tuesdays
2023-10-04 | Virtual (Stuttgart, DE) | Rust Community Stuttgart
Rust-Meetup
2023-10-04 | Virtual (Various) | Ferrous Systems
A Decade of Rust with Ferrous Systems
2023-10-05 | Virtual (Charlottesville, NC, US) | Charlottesville Rust Meetup
Crafting Interpreters in Rust Collaboratively
2023-10-07 | Virtual (Kampala, UG) | Rust Circle Kampala
Rust Circle Meetup: Mentorship (First Saturday)
2023-10-10 | Virtual (Berlin, DE) | OpenTechSchool Berlin
Rust Hack and Learn | Mirror
2023-10-10 | Virtual (Dallas, TX, US) | Dallas Rust
Second Tuesday
2023-10-11| Virtual (Boulder, CO, US) | Boulder Elixir and Rust
Monthly Meetup
2023-10-11 - 2023-10-13 | Virtual (Brussels, BE) | EuroRust
EuroRust 2023
2023-10-12 | Virtual (Nuremberg, DE) | Rust Nuremberg
Rust Nürnberg online
2023-10-18 | Virtual (Vancouver, BC, CA) | Vancouver Rust
Rust Study/Hack/Hang-out
Asia
2023-09-25 | Singapore, SG | Metacamp - Web3 Blockchain Community
Introduction to Rust
2023-09-26 | Singapore, SG | Rust Singapore
SG Rustaceans! Updated - Singapore First Rust Meetup!
2023-10-03 | Taipei, TW | WebAssembly and Rust Meetup (Wasm Empowering AI)
WebAssembly Meetup (Wasm Empowering AI) in Taipei
Europe
2023-09-21 | Aarhus, DK | Rust Aarhus
Rust Aarhus - Rust and Talk at Concordium
2023-09-21 | Bern, CH | Rust Bern
Rust Bern Meetup #3 2023 🦀
2023-09-28 | Berlin, DE | React Berlin
React Berlin September Meetup: Creating Videos with React & Remotion & More: Integrating Rust with React Native – Gheorghe Pinzaru
2023-09-28 | Madrid, ES | MadRust
Primer evento Post COVID: ¡Cervezas MadRust!
2023-09-28 | Paris, FR | Paris Scala User Group (PSUG)
PSUG #114 Comparons Scala et Rust
2023-09-30 | Saint Petersburg, RU | Rust Saint Petersburg meetups
Rust Community Meetup: A tale about how I tried to make my Blitz Basic - Vitaly; How to use nix to build projects on Rust – Danil; Getting to know tower middleware. General overview – Mikhail
2023-10-10 | Berlin, DE | OpenTechSchool Berlin
Rust Hack and Learn
2023-10-12 | Reading, UK | Reading Rust Workshop
Reading Rust Meetup at Browns
2023-10-17 | Leipzig, DE | Rust - Modern Systems Programming in Leipzig
SIMD in Rust
North America
2023-09-21 | Lehi, UT, US | Utah Rust
A Cargo Preview w/Ed Page, A Cargo Team Member
2023-09-21 | Mountain View, CA, US | Mountain View Rust Meetup
Rust Meetup at Hacker Dojo
2023-09-21 | Nashville, TN, US | Music City Rust Developers
Rust on the web! Get started with Leptos
2023-09-26 | Mountain View, CA, US | Rust Breakfast & Learn
Rust: snacks & learn
2023-09-26 | Pasadena, CA, US | Pasadena Thursday Go/Rust
Monthly Rust group
2023-09-27 | Austin, TX, US | Rust ATX
Rust Lunch - Fareground
2023-09-28 | Boulder, CO, US | Solid State Depot - The Boulder Makerspace
Rust and ROS for Robotics + Happy Hour
2023-10-11 | Boulder, CO, US | Boulder Rust Meetup
First Meetup - Demo Day and Office Hours
2023-10-12 | Lehi, UT, US | Utah Rust
The Actor Model: Fearless Concurrency, Made Easy w/Chris Mena
2023-10-17 | San Francisco, CA, US | San Francisco Rust Study Group
Rust Hacking in Person
Oceania
2023-09-26 | Canberra, ACT, AU | Rust Canberra
September Meetup
2023-09-26 | Melbourne, VIC, AU | Rust Melbourne
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Geospatial Solutions Market: Size, Emerging Trends, Competitive Landscape, and Forecast (2033)
"Geospatial Solutions Market" - Research Report, 2025-2033 delivers a comprehensive analysis of the industry's growth trajectory, encompassing historical trends, current market conditions, and essential metrics including production costs, market valuation, and growth rates. Geospatial Solutions Market Size, Share, Growth, and Industry Analysis, By Type (Hardware, Software, Service), By Application (Utility, Business, Transportation, Defence and Intelligence, Infrastructural Development, Natural Resource, Others), Regional Insights and Forecast to 2033 are driving major changes, setting new standards and influencing customer expectations. These advancements are expected to lead to significant market growth. Capitalize on the market's projected expansion at a CAGR of 7.5% from 2024 to 2033. Our comprehensive [120+ Pages] market research report offers Exclusive Insights, Vital Statistics, Trends, and Competitive Analysis to help you succeed in this Information & Technology sector.
Geospatial Solutions Market: Is it Worth Investing In? (2025-2033)
Global Geospatial Solutions market size is estimated at USD 267018.71 million in 2024 and expected to rise to USD 511931.06 million by 2033, experiencing a CAGR of 7.5%.
The Geospatial Solutions market is expected to demonstrate strong growth between 2025 and 2033, driven by 2024's positive performance and strategic advancements from key players.
The leading key players in the Geospatial Solutions market include:
HERE Technologies
Esri
Hexagon
Atkins Plc
Pitney Bowes
Topcon
DigitalGlobe Inc
General Electric
Harris Corporation
Google
Bentley
Geospatial Corporation
Baidu
Telenav
TomTom International B.V.
Apple
Oracle
Microsoft
Amazon
IBM
SAP
China Geo-Engineering Corporation
RMSI
Orbital Insights
Request a Free Sample Copy @ https://www.marketgrowthreports.com/enquiry/request-sample/104229
Report Scope
This report offers a comprehensive analysis of the global Geospatial Solutions market, providing insights into market size, estimations, and forecasts. Leveraging sales volume (K Units) and revenue (USD millions) data, the report covers the historical period from 2020 to 2025 and forecasts for the future, with 2024 as the base year.
For granular market understanding, the report segments the market by product type, application, and player. Additionally, regional market sizes are provided, offering a detailed picture of the global Geospatial Solutions landscape.
Gain valuable insights into the competitive landscape through detailed profiles of key players and their market ranks. The report also explores emerging technological trends and new product developments, keeping you at the forefront of industry advancements.
This research empowers Geospatial Solutions manufacturers, new entrants, and related industry chain companies by providing critical information. Access detailed data on revenues, sales volume, and average price across various segments, including company, type, application, and region.
Request a Free Sample Copy of the Geospatial Solutions Report 2025 - https://www.marketgrowthreports.com/enquiry/request-sample/104229
Understanding Geospatial Solutions Product Types & Applications: Key Trends and Innovations in 2025
By Product Types:
Hardware
Software
Service
By Application:
Utility
Business
Transportation
Defence and Intelligence
Infrastructural Development
Natural Resource
Others
Emerging Geospatial Solutions Market Leaders: Where's the Growth in 2025?
North America (United States, Canada and Mexico)
Europe (Germany, UK, France, Italy, Russia and Turkey etc.)
Asia-Pacific (China, Japan, Korea, India, Australia, Indonesia, Thailand, Philippines, Malaysia and Vietnam)
South America (Brazil, Argentina, Columbia etc.)
Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)
Inquire more and share questions if any before the purchase on this report at - https://www.marketgrowthreports.com/enquiry/request-sample/104229
This report offers a comprehensive analysis of the Geospatial Solutions market, considering both the direct and indirect effects from related industries. We examine the pandemic's influence on the global and regional Geospatial Solutions market landscape, including market size, trends, and growth projections. The analysis is further segmented by type, application, and consumer sector for a granular understanding.
Additionally, the report provides a pre and post pandemic assessment of key growth drivers and challenges within the Geospatial Solutions industry. A PESTEL analysis is also included, evaluating political, economic, social, technological, environmental, and legal factors influencing the market.
We understand that your specific needs might require tailored data. Our research analysts can customize the report to focus on a particular region, application, or specific statistics. Furthermore, we continuously update our research, triangulating your data with our findings to provide a comprehensive and customized market analysis.
COVID-19 Changed Us? An Impact and Recovery Analysis
This report delves into the specific repercussions on the Geospatial Solutions Market. We meticulously tracked both the direct and cascading effects of the pandemic, examining how it reshaped market size, trends, and growth across international and regional landscapes. Segmented by type, application, and consumer sector, this analysis provides a comprehensive view of the market's evolution, incorporating a PESTEL analysis to understand key influencers and barriers. Ultimately, this report aims to provide actionable insights into the market's recovery trajectory, reflecting the broader shifts. Final Report will add the analysis of the impact of Russia-Ukraine War and COVID-19 on this Geospatial Solutions Industry.
TO KNOW HOW COVID-19 PANDEMIC AND RUSSIA UKRAINE WAR WILL IMPACT THIS MARKET - REQUEST SAMPLE
Detailed TOC of Global Geospatial Solutions Market Research Report, 2025-2033
1 Report Overview
1.1 Study Scope 1.2 Global Geospatial Solutions Market Size Growth Rate by Type: 2020 VS 2024 VS 2033 1.3 Global Geospatial Solutions Market Growth by Application: 2020 VS 2024 VS 2033 1.4 Study Objectives 1.5 Years Considered
2 Global Growth Trends
2.1 Global Geospatial Solutions Market Perspective (2020-2033) 2.2 Geospatial Solutions Growth Trends by Region 2.2.1 Global Geospatial Solutions Market Size by Region: 2020 VS 2024 VS 2033 2.2.2 Geospatial Solutions Historic Market Size by Region (2020-2025) 2.2.3 Geospatial Solutions Forecasted Market Size by Region (2025-2033) 2.3 Geospatial Solutions Market Dynamics 2.3.1 Geospatial Solutions Industry Trends 2.3.2 Geospatial Solutions Market Drivers 2.3.3 Geospatial Solutions Market Challenges 2.3.4 Geospatial Solutions Market Restraints
3 Competition Landscape by Key Players
3.1 Global Top Geospatial Solutions Players by Revenue 3.1.1 Global Top Geospatial Solutions Players by Revenue (2020-2025) 3.1.2 Global Geospatial Solutions Revenue Market Share by Players (2020-2025) 3.2 Global Geospatial Solutions Market Share by Company Type (Tier 1, Tier 2, and Tier 3) 3.3 Players Covered: Ranking by Geospatial Solutions Revenue 3.4 Global Geospatial Solutions Market Concentration Ratio 3.4.1 Global Geospatial Solutions Market Concentration Ratio (CR5 and HHI) 3.4.2 Global Top 10 and Top 5 Companies by Geospatial Solutions Revenue in 2024 3.5 Geospatial Solutions Key Players Head office and Area Served 3.6 Key Players Geospatial Solutions Product Solution and Service 3.7 Date of Enter into Geospatial Solutions Market 3.8 Mergers & Acquisitions, Expansion Plans
4 Geospatial Solutions Breakdown Data by Type
4.1 Global Geospatial Solutions Historic Market Size by Type (2020-2025) 4.2 Global Geospatial Solutions Forecasted Market Size by Type (2025-2033)
5 Geospatial Solutions Breakdown Data by Application
5.1 Global Geospatial Solutions Historic Market Size by Application (2020-2025) 5.2 Global Geospatial Solutions Forecasted Market Size by Application (2025-2033)
6 North America
6.1 North America Geospatial Solutions Market Size (2020-2033) 6.2 North America Geospatial Solutions Market Growth Rate by Country: 2020 VS 2024 VS 2033 6.3 North America Geospatial Solutions Market Size by Country (2020-2025) 6.4 North America Geospatial Solutions Market Size by Country (2025-2033) 6.5 United States 6.6 Canada
7 Europe
7.1 Europe Geospatial Solutions Market Size (2020-2033) 7.2 Europe Geospatial Solutions Market Growth Rate by Country: 2020 VS 2024 VS 2033 7.3 Europe Geospatial Solutions Market Size by Country (2020-2025) 7.4 Europe Geospatial Solutions Market Size by Country (2025-2033) 7.5 Germany 7.6 France 7.7 U.K. 7.8 Italy 7.9 Russia 7.10 Nordic Countries
8 Asia-Pacific
8.1 Asia-Pacific Geospatial Solutions Market Size (2020-2033) 8.2 Asia-Pacific Geospatial Solutions Market Growth Rate by Region: 2020 VS 2024 VS 2033 8.3 Asia-Pacific Geospatial Solutions Market Size by Region (2020-2025) 8.4 Asia-Pacific Geospatial Solutions Market Size by Region (2025-2033) 8.5 China 8.6 Japan 8.7 South Korea 8.8 Southeast Asia 8.9 India 8.10 Australia
9 Latin America
9.1 Latin America Geospatial Solutions Market Size (2020-2033) 9.2 Latin America Geospatial Solutions Market Growth Rate by Country: 2020 VS 2024 VS 2033 9.3 Latin America Geospatial Solutions Market Size by Country (2020-2025) 9.4 Latin America Geospatial Solutions Market Size by Country (2025-2033) 9.5 Mexico 9.6 Brazil
10 Middle East & Africa
10.1 Middle East & Africa Geospatial Solutions Market Size (2020-2033) 10.2 Middle East & Africa Geospatial Solutions Market Growth Rate by Country: 2020 VS 2024 VS 2033 10.3 Middle East & Africa Geospatial Solutions Market Size by Country (2020-2025) 10.4 Middle East & Africa Geospatial Solutions Market Size by Country (2025-2033) 10.5 Turkey 10.6 Saudi Arabia 10.7 UAE
11 Key Players Profiles
12 Analyst's Viewpoints/Conclusions
13 Appendix
13.1 Research Methodology 13.1.1 Methodology/Research Approach 13.1.2 Data Source 13.2 Disclaimer 13.3 Author Details
Request a Free Sample Copy of the Geospatial Solutions Report 2025 @ https://www.marketgrowthreports.com/enquiry/request-sample/104229
About Us: Market Growth Reports is a unique organization that offers expert analysis and accurate data-based market intelligence, aiding companies of all shapes and sizes to make well-informed decisions. We tailor inventive solutions for our clients, helping them tackle any challenges that are likely to emerge from time to time and affect their businesses.
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Why Drone Mapping Is Changing the Way We Do Drone Survey
In the world of modern surveying, drone mapping is leading a major shift. No longer do teams rely solely on ground-based tools or slow, manual data collection. Instead, industries ranging from construction to environmental science are turning to drone-based solutions for faster, more accurate insights.
At LiDAR Solutions, we harness the power of drone mapping to deliver comprehensive site data in record time. Our drone systems capture high-resolution aerial images and convert them into 2D maps or 3D models with precise geospatial information. These outputs help project managers, engineers, and decision-makers make informed choices based on real-world visuals and data.
When paired with lidar surveying, the technology becomes even more powerful. LiDAR (Light Detection and Ranging) uses laser pulses to measure distances and capture detailed surface data—even through dense vegetation or in low-light conditions. This makes it ideal for topographic studies, infrastructure planning, and mining exploration.
What sets LiDAR-based drone survey solutions apart is their ability to combine speed with accuracy. Instead of taking weeks to gather and process site data, we can deliver detailed models within days. This efficiency saves businesses time, reduces labour costs, and eliminates many of the hazards associated with manual surveys.
Using a drone survey also limits disruption. We can scan hard-to-reach or hazardous areas without stepping foot on unstable ground. Whether you’re planning a new development or monitoring environmental changes over time, our approach offers unmatched safety and reliability.
LiDAR Solutions brings industry-grade drone systems and experienced pilots to every project. We customise each survey to suit your specific requirements and deliver your data in ready-to-use formats. From contour maps to elevation models, our outputs integrate seamlessly with CAD and GIS software.
As regulatory bodies demand greater transparency and accuracy in planning documents, investing in reliable survey methods has never been more important. Businesses that adopt lidar surveying and drone-based technologies are staying ahead of the curve.
In short, the evolution of drone survey methods is reshaping the landscape of surveying and mapping in Australia. Whether you manage a major infrastructure project or need precise data for environmental compliance, our team is here to help.
Want to learn how our drone mapping services can elevate your next project? Contact LiDAR Solutions today for a no-obligation consultation.
Source
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Drone Surveying: The Epitome of Precision & Aerial Intelligence
In the modern age of rapid infrastructure development, environmental assessment, and data-driven decision-making, drone surveying has emerged as a revolutionary force in the world of geospatial technology. Known for its exceptional precision and efficiency, drone surveying—also referred to as UAV (Unmanned Aerial Vehicle) surveying—is redefining the way we capture, process, and analyze spatial data.
What Is Drone Surveying?
Drone surveying is the process of using unmanned aerial vehicles equipped with sensors, cameras, and GPS receivers to collect geospatial data from the air. Unlike traditional surveying methods that often require significant manpower and time, drone surveying allows surveyors to access and map large or hard-to-reach areas quickly, accurately, and cost-effectively.
High-resolution imagery, LiDAR sensors, multispectral cameras, and thermal sensors can be mounted on drones depending on the application. The data captured is processed using photogrammetry software to create detailed maps, 3D models, orthophotos, and digital elevation models (DEMs).
Advantages of Drone Surveying
Unmatched Accuracy: With RTK (Real-Time Kinematic) and PPK (Post-Processed Kinematic) technologies, drone surveys can achieve centimeter-level accuracy, making them ideal for engineering, construction, and infrastructure projects.
Rapid Data Collection: Drones can survey hundreds of acres in a single flight, drastically reducing field time compared to traditional methods.
Cost Efficiency: Reduced manpower, minimal equipment setup, and quick data acquisition translate into lower overall project costs.
Enhanced Safety: Surveying hazardous, unstable, or dangerous terrains—such as cliffs, mines, and rooftops—can be done safely from the air without putting human lives at risk.
Versatile Applications: From construction site monitoring and agriculture to mining, forestry, flood modeling, and disaster assessment, drone surveying is applicable across numerous sectors.
Key Applications of Drone Surveying
Construction & Infrastructure: Drones provide topographic maps and volumetric calculations essential for earthworks, road design, and structural planning.
Agriculture: Multispectral imaging helps assess crop health, irrigation issues, and pest infestations with precision.
Mining & Quarrying: Drones offer real-time volume measurements of stockpiles and monitor ongoing excavation work efficiently.
Environmental Monitoring: Drones assist in tracking deforestation, erosion, and changes in water bodies with time-lapse mapping.
Urban Planning: They help in creating 3D city models for infrastructure development and land use planning.
The Future of Drone Surveying
The integration of AI, cloud computing, and machine learning is enhancing the analytical capabilities of drone data. Real-time insights, automation, and predictive modeling are becoming more accessible through user-friendly platforms.
As regulatory frameworks evolve and drone technology becomes more affordable, even small businesses and local governments are adopting UAV-based surveying to streamline projects and boost productivity.
Conclusion
Drone surveying stands as the epitome of precision and aerial intelligence, transforming industries with its dynamic capabilities. It not only improves the accuracy and speed of data collection but also opens up new possibilities for innovation in mapping and analysis. For anyone involved in geospatial projects—from engineers and architects to environmentalists and city planners—embracing drone surveying is no longer optional; it is essential for staying ahead in the digital age.
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A Premier Institution for Higher Education in Sri Lanka
Introduction
Sabaragamuwa University of Sri Lanka (SUSL) is a leading public university known for its academic excellence, innovative research, and vibrant campus life. Established in 1991 and located in the scenic region of Belihuloya, SUSL has expanded significantly over the years, introducing new faculties and cutting-edge programs to meet the demands of modern education.
A Growing Academic Hub
Originally starting with a few key faculties, SUSL has evolved into a multidisciplinary university with a wide range of programs. The university now includes:
Faculties & Programs
Faculty of Agricultural Sciences
Focuses on sustainable agriculture, crop science, and agribusiness.
Faculty of Geomatics
Specializes in GIS, remote sensing, and land management.
Faculty of Management Studies
Offers degrees in business administration, finance, and marketing.
Faculty of Social Sciences and Languages
Covers disciplines like sociology, languages, and mass communication.
Faculty of Applied Sciences
Includes programs in industrial sciences, environmental management, and food science.
Faculty of Technology (Newly Added)
Provides engineering and technology-related programs to meet industry demands.
Faculty of Computing (Newly Added)
Focuses on computer science, software engineering, and IT solutions.
Faculty of Medicine (Newly Added)
A significant milestone for SUSL, offering medical degrees and healthcare research.
Research & Innovation
SUSL is committed to fostering research that addresses national and global challenges. Key research areas include:
Sustainable agriculture
Geospatial technology applications
Business and economic development
Medical and health sciences
IT and artificial intelligence
The university collaborates with international institutions and industries to provide students with hands-on experience.
Campus Life & Student Activities
Beyond academics, SUSL offers a dynamic student life with:
Sports & Recreation: Cricket, football, athletics, and indoor games.
Clubs & Societies: IT clubs, debate teams, environmental groups, and cultural associations.
Events & Festivals: Annual sports meets, tech expos, and cultural shows.
Why Choose Sabaragamuwa University?
Affordable, high-quality education Modern facilities and well-equipped labs Industry-aligned programs with internship opportunities Beautiful, eco-friendly campus surrounded by nature Strong focus on employability and entrepreneurship
Conclusion
Sabaragamuwa University of Sri Lanka continues to grow as a center of academic and research excellence. With new faculties in technology, computing, and medicine, SUSL is shaping the future of education in Sri Lanka. Whether you're an aspiring engineer, doctor, business leader, or researcher, SUSL provides the perfect environment to achieve your goals.
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Real-Time Site Mapping with Aerial Surveying Technologies
In the rapidly evolving landscape of land management, construction, and environmental monitoring, Aerial Surveying has emerged as a transformative technology. It enables real-time site mapping with unmatched precision and efficiency. This advanced method leverages unmanned aerial vehicles (UAVs), drones, and sophisticated imaging sensors to capture detailed spatial data, revolutionizing traditional surveying practices in Australia and beyond.
Understanding Aerial Surveying and Its Importance
Aerial Surveying refers to the process of collecting geospatial information from the air using aircraft, drones, or other airborne platforms. Unlike conventional ground surveys, which can be time-consuming and limited in scope, aerial methods provide comprehensive data over large and often inaccessible areas. This capability makes it indispensable for various sectors such as mining, agriculture, urban planning, and environmental conservation.
The ability to produce real-time site mapping through aerial platforms is especially crucial. It facilitates immediate decision-making, supports accurate project planning, and helps reduce costs associated with delays and errors. The dynamic nature of aerial data collection ensures that stakeholders have up-to-date information, which is critical in fast-paced construction or resource management projects.
Technologies Driving Real-Time Site Mapping
Advancements in drone technology, remote sensing, and data processing have propelled Aerial Surveying to new heights. High-resolution cameras, LiDAR sensors, and multispectral imaging devices mounted on UAVs capture diverse types of data, from topography and vegetation cover to infrastructure details.
Unmanned Aerial Vehicles (Drones)
Drones are the backbone of modern Aerial Surveying. Their flexibility, cost-effectiveness, and ability to operate in challenging environments allow for rapid data acquisition. Equipped with GPS and inertial measurement units (IMUs), drones deliver highly accurate geospatial data crucial for real-time site mapping.
LiDAR and Photogrammetry
LiDAR (Light Detection and Ranging) technology uses laser pulses to measure distances with remarkable accuracy, creating detailed 3D models of terrain and structures. Photogrammetry, on the other hand, processes overlapping images captured by drones to generate orthomosaic maps and 3D reconstructions. Both technologies complement each other in providing comprehensive site information instantly.
Real-Time Data Processing and Transmission
One of the breakthroughs in Aerial Surveying is the integration of real-time data processing software. This enables the immediate conversion of raw aerial data into actionable maps and models while the drone is still airborne. Coupled with wireless data transmission, this real-time capability allows project managers and field teams to access and analyze site conditions on the spot, significantly accelerating workflows.
Applications of Real-Time Site Mapping in Australia
The versatility of Aerial Surveying technologies in producing real-time maps is evident across multiple Australian industries:
Construction and Infrastructure Development
Real-time site mapping assists engineers and architects in monitoring progress, verifying design compliance, and identifying potential issues early. It improves safety by minimizing the need for physical inspections in hazardous zones and enhances project coordination through accurate, up-to-date site visuals.
Environmental Management
Australian ecosystems often require careful monitoring to protect biodiversity and manage resources sustainably. Aerial surveying facilitates rapid assessments of land use changes, deforestation, water bodies, and wildlife habitats. Real-time data helps environmental scientists respond swiftly to emerging threats such as bushfires or illegal land clearing.
Mining and Resource Exploration
In mining operations, Aerial Surveying provides critical insights into terrain morphology, stockpile volumes, and infrastructure integrity. Real-time site mapping enables efficient resource allocation, environmental compliance, and hazard detection, all essential for maintaining safe and productive mines.
Agriculture
Farmers and agronomists utilize aerial surveying for crop health analysis, irrigation planning, and pest detection. Real-time mapping ensures that agricultural interventions are timely and precise, contributing to improved yields and sustainable farming practices.
Benefits of Real-Time Site Mapping with Aerial Surveying
The advantages of employing Aerial Surveying for real-time site mapping are extensive:
Speed and Efficiency: Data collection and processing are significantly faster than traditional methods, shortening project timelines.
Accuracy: High-resolution sensors and GPS integration ensure precise spatial measurements.
Cost-Effectiveness: Reduced labor and equipment costs, coupled with fewer onsite visits, lower overall project expenses.
Safety: Remote data acquisition reduces human exposure to dangerous environments.
Scalability: Ability to survey large or complex sites without logistical complications.
Enhanced Decision-Making: Real-time information supports immediate and informed decisions, minimizing errors and rework.
Challenges and Future Directions
While Aerial Surveying offers numerous benefits, it also faces challenges such as regulatory restrictions on drone flights, data privacy concerns, and the need for skilled operators. In Australia, ongoing efforts to streamline drone regulations and invest in operator training aim to address these issues.
Looking ahead, integration with artificial intelligence and machine learning promises to enhance data analysis, enabling predictive modeling and automated anomaly detection. The continuous improvement of sensor technologies and data transmission speeds will further cement real-time site mapping as a cornerstone of modern land and resource management.
Conclusion
Aerial Surveying stands at the forefront of technological innovation in site mapping, providing real-time, accurate, and comprehensive spatial data that transforms industries across Australia. By embracing these cutting-edge aerial technologies, organizations can optimize project outcomes, enhance safety, and ensure sustainable land use planning in an increasingly complex world. Real-time site mapping with Aerial Surveying is not just a trend but a fundamental shift towards smarter, faster, and more informed site management.
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🌿 Sabaragamuwa University of Sri Lanka: Where Education Meets Nature 🎓
Located in the tranquil surroundings of Belihuloya, the Sabaragamuwa University of Sri Lanka (SUSL) is a prestigious center for higher education in Sri Lanka. Established in 1991 and officially becoming a university in 1995, SUSL continues to inspire thousands of students through its commitment to academic excellence, innovation, and community service. 🌱
🏫 Faculties and Academic Excellence
SUSL offers a wide variety of academic programs through its vibrant faculties:
🌾 Faculty of Agricultural Sciences – Emphasizing sustainable farming and food production.
🔬 Faculty of Applied Sciences – Fostering innovation in science and technology.
🗺️ Faculty of Geomatics – Specializing in geospatial studies and surveying.
💼 Faculty of Management Studies – Preparing future business leaders.
🌍 Faculty of Social Sciences and Languages – Promoting culture, society, and communication.
🩺 Faculty of Medicine – Advancing health education and medical practice.
💻 Faculty of Computing – Leading in software development and IT innovation.
🛠️ Faculty of Technology – Driving progress through applied engineering.
🎓 Faculty of Graduate Studies – Supporting advanced research and postgraduate studies.
Courses are conducted in Sinhala, Tamil, and English to ensure diversity and inclusivity. 🌐
🌄 Scenic Campus Location
Set on over 250 acres in the green hills of Belihuloya, the SUSL campus offers a peaceful and inspiring environment for learning. 🏞️ The natural beauty surrounding the university enriches the student experience and supports a healthy, focused academic life. 🧘
👩🏫 Leadership and Vision
Under the guidance of experienced academic leaders, SUSL is constantly evolving to meet global standards. The university’s management, including the Chancellor and Vice-Chancellor, is committed to creating a forward-thinking and inclusive educational environment. 📈
🔍 Research and Innovation Hub
SUSL has earned recognition for its significant contributions to research in various disciplines. 🧪 From environmental conservation to digital technology, the university encourages students and staff to engage in impactful research that benefits the nation and beyond. 🌐💡
🏅 Reputation and Achievements
The university has steadily climbed national and regional rankings, establishing itself as a top-tier institution in Sri Lanka. 🏆 Its consistent academic achievements and research output reflect the dedication of its faculty and students. 🙌
⚽ Student Life and Activities
SUSL offers more than just academics. Students enjoy a vibrant campus life filled with sports 🏀, cultural events 🎭, clubs, and community service programs 🤝. The university participates in inter-university sports events, promoting teamwork and wellness. 🎽
🚀 Future Outlook
Sabaragamuwa University continues to grow with a clear vision for the future. Plans include expanding academic offerings, improving infrastructure, and strengthening international partnerships. 🌍 It strives to be a leading university in South Asia, nurturing future leaders and innovators. 🌟
For more information, visit the official website: www.sab.ac.lk
#SabaragamuwaUniversity#SUSL#SriLankaUniversities#HigherEducation#UniversityLife#CampusInNature#AcademicExcellence#SriLankaEducation#StudentLife
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🎓 Sabaragamuwa University of Sri Lanka: Inspiring Minds, Transforming Futures
The Sabaragamuwa University of Sri Lanka (SUSL), located in the tranquil highlands of Belihuloya, is one of the country’s fastest-growing national universities. Since its establishment in 1995, the university has become known for its commitment to quality education, applied research, and community engagement.
🔗 Official Website: https://www.sab.ac.lk/
🌍 A University with a Purpose
Sabaragamuwa University stands on the foundation of creating a knowledge-based society. Its mission is to deliver education that is relevant, accessible, and globally competitive, while remaining rooted in Sri Lankan culture and values.
Whether it’s through innovative academic programs, sustainable practices, or student-focused services, SUSL is shaping future leaders for both local and international arenas.
📚 Academics that Make a Difference
SUSL offers degrees in diverse and in-demand fields through its nine faculties:
Faculty of Agricultural Sciences – Sustainable agriculture, food science, and agribusiness.
Faculty of Applied Sciences – Natural sciences, IT, and applied disciplines like tourism.
Faculty of Geomatics – Surveying, GIS, and geospatial technologies.
Faculty of Management Studies – Business administration, HR, and finance.
Faculty of Social Sciences and Languages – Psychology, sociology, languages, and communication.
Faculty of Technology – Engineering and biosystems technology.
Faculty of Computing – Software engineering, AI, and data science.
Faculty of Medicine – Clinical education, public health, and biomedical sciences.
Faculty of Graduate Studies – MPhil, PhD, and postgraduate diplomas.
Each faculty is staffed with qualified lecturers, researchers, and professionals committed to nurturing academic excellence and critical thinking.
🧑🎓 Student-Centered Environment
SUSL prioritizes student well-being, creativity, and leadership. The campus is designed to be student-friendly, with:
Hostels and accommodation
Computer labs and free Wi-Fi
Medical and counseling services
Modern sports and recreation facilities
Students are encouraged to engage in societies, sports teams, cultural groups, and leadership positions that enhance their university experience and personal development.
🏅 National Recognition and Global Reach
Sabaragamuwa University has been recognized for:
Academic quality and graduate employability
Research innovation in agriculture, technology, and social science
Partnerships with international institutions across Asia, Europe, and beyond
Exchange programs and collaborative research initiatives have placed SUSL on the global academic map, giving students the opportunity to engage in international learning environments.
🌿 A Sustainable and Scenic Campus
SUSL is one of the few universities in Sri Lanka surrounded by mountains, forests, and waterfalls. The campus promotes eco-friendly practices and provides students a peaceful space to study, grow, and connect with nature.
🔚 Conclusion
Sabaragamuwa University of Sri Lanka is more than a place of learning—it’s a space where future leaders, innovators, and thinkers are nurtured. With its dynamic academic programs, supportive environment, and scenic surroundings, SUSL continues to uplift students and communities alike.
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Hiring a Drone Survey Company in Jaipur: What to Look For?
1. A Complete Guide by Dolphin Engineer
Precision and swiftness have now become the essential components of any successful venture in today's fast-paced industries. Construction, mining, agriculture, and urban planning—be it any industry, companies are nowadays depending more and more on drone surveys to capture precise geospatial information cost-effectively. If you are looking to outsource Drone Survey in Jaipur, your decision can be instrumental in determining your project's success.
This extensive guide by Dolphin Engineer, a well-known player in the industry of drone surveying, takes you through the important aspects that you must keep in mind while choosing a drone survey provider in Jaipur.
2. Knowing Why Drone Surveying Has Become So Trendy
It is important to realize why Drone Survey in Jaipur has become so trendy before you move on to what to check for in a service provider.
Drone surveys provide:
High-resolution aerial imagery
3D mapping and terrain modeling
Quicker data gathering over extensive areas
Increased safety through minimization of human presence in risky areas
From property developers to government construction projects, various sectors are utilizing drone technology to carry out survey work. In the growing cityscape of Jaipur, drone surveys have become a game-changer, providing quicker and more accurate alternative to conventional land surveying.
3. Why Choosing the Right Survey Company Matters
Choosing the appropriate drone surveying company is more than acquiring an aerial perspective on your property. It is all about accuracy, legality, interpreting data, and timely submission. A specialist operator such as Dolphin Engineer sees that everything is covered with professional proficiency and care.
Let us delve into the crucial elements you should consider before a final choice is made.
1. Compliance and Certification under Law
Make Sure They Are Certified to Fly
The operations of drones in India are governed by the Directorate General of Civil Aviation (DGCA). The company you choose for a drone survey should possess:
DGCA certification to train drone pilots
License to operate in controlled or urban areas
Permit for collecting and storing aerial data
When you opt for Dolphin Engineer Drone Survey Jaipur, you can be certain about fulfilling all the legal aspects. Their licensed experts abide by national as well as local regulations so that surveying is done with complete safety.
2. Technical Expertise and Experience
Don't Just Look at Drone Ownership
Operating a drone is not the same as collecting usable survey data. The firm must have:
Technically qualified personnel with GIS and mapping skills
A history of managing complicated projects
Practical experience in your particular industry (construction, mining, agriculture, etc.)
Dolphin Engineer differentiates itself through the integration of drone operation capabilities with geospatial analysis. With extensive experience in Drone Survey in Jaipur, their staff is well-suited to handle projects of any size and complexity.
3. Equipment and Technology Quality
New Drones = Improved Data
Not all drones are designed for survey work. A commercial drone survey firm should employ:
High-resolution cameras
LiDAR sensors for terrain modeling
RTK/PPK GPS for enhanced accuracy
Data processing software for 3D modeling
Dolphin Engineer employs state-of-the-art drones with the most advanced sensors and mapping software. Their application of the latest technology guarantees that each Drone Survey in Jaipur provides precise, accurate, and actionable results.
4. Data Processing and Deliverables
How They Handle and Present the Data Matters
Much of surveying is what occurs after the drone takes pictures. Ask the company:
What are the kinds of deliverables they give? (orthomosaic maps, 3D models, contour maps, etc.)
What is the turnaround time?
Do they give cloud-based access or offline formats?
Can the data be incorporated into your CAD or GIS systems?
With Dolphin Engineer, you're not only obtaining high-quality drone imagery but also expertly processed outputs as per your requirements. Their post-processing team makes it a point that Drone Survey data in Jaipur is easy to understand and usable right away.
5. Industry-Specific Solutions
Custom Services for Different Industries
Various industries have varying demands. A mining firm, for instance, demands volumetric analysis, whereas a construction company can demand progress tracking.
Verify if the survey company provides customized solutions like:
Land use planning for property
Crop health analysis for agriculture
Volume and elevation computation for mining
Infrastructure inspection for civil projects
Dolphin Engineer offers end-to-end services which are industry-specific, hence a reliable name for Drone Survey in Jaipur across industries.
6. Client Testimonials and Case Studies
Check Their Reputation
One of the best methods to measure the reliability of a company is by going through:
Previous client feedback
Project case studies
Before-and-after examples of survey data
Seek transparency and established outcomes. Dolphin Engineer openly displays a list of successful Drone Survey in Jaipur projects on their website, as well as the feedback of pleased clients.
7. Cost Transparency and Flexibility
Know What You Are Paying For
Cost may differ greatly based on:
The area to be surveyed
Type of sensor and drone used
Deliverables and report format
Request a transparent, itemized quotation. The business should also provide scalable packages according to your project size. With Dolphin Engineer, you receive affordable prices, formal proposals, and no hidden fees for your Drone Survey in Jaipur requirements.
8. Turnaround Time and Project Management
Timely Delivery Is Important
In project-based businesses, delays can cost. Ensure that the business:
Delivers realistic timelines
Appoints a committed project manager
Provides support during and after the survey
Dolphin Engineer prides itself on prompt delivery and organized project handling. Their well-designed workflow keeps your Drone Survey in Jaipur within schedule and ahead of deadlines.
9. Data Privacy and Security
Keep Your Information Safe
Survey data will usually hold confidential information about property, land, or infrastructure. A reliable drone survey firm ought to possess:
Secure data storage protocols
Confidentiality agreements
Encrypted delivery systems
Dolphin Engineer realizes the importance of data protection and follows rigorous protocols to keep your Jaipur Drone Survey data secure.
10. Post-Survey Assistance and Advisory
A Long-Term Partner, Not a Short-Term Service Provider
Work doesn't stop once the survey is over. You may require help with:
Interpreting the data
Project decision-making based on insights
Planning follow-up surveys
Dolphin Engineer offers great post-survey assistance, assisting clients in the implementation of their survey findings. Their consultative nature makes them stand out in the Drone Survey in Jaipur.
4. Conclusion: Make an Informed Choice
Engaging a drone survey firm is an investment. Your project success, its safety, compliance, and cost-effectiveness are all contingent on the survey quality. With careful consideration of the ten factors provided above, you can rest assured to select a service provider that meets your objectives.
Need a reliable partner for Drone Survey in Jaipur? Dolphin Engineer provides the technology, expertise, and professionalism you require. With their customized solution, the latest equipment, and a team of professionals dedicated to getting the job done, they are the go-to name for drone surveying in the area.
Ready to take your next project to the next level with a professional Drone Survey in Jaipur?
Call Dolphin Engineer today and receive accurate, reliable, and efficient drone survey solutions tailored to your requirements.
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The Role of Fixed-Wing Drones in Modern Aerial Intelligence
In today’s fast-evolving landscape of unmanned aerial technology, fixed-wing drones are proving to be a game-changer across industries. At the forefront of this innovation is Aebocode Technologies, a company dedicated to harnessing the power of drone technology to deliver smarter, more efficient aerial solutions. From large-scale surveying to precision agriculture, fixed-wing drones are paving the way for more comprehensive and cost-effective aerial data collection.
What Are Fixed-Wing Drones?
Unlike their multi-rotor counterparts, fixed-wing drones are designed with a rigid wing structure that mimics traditional airplanes. This configuration enables them to glide through the air using aerodynamic lift, resulting in greater endurance and coverage compared to rotary drones. With the ability to fly for extended periods (often exceeding one hour) and cover vast distances, fixed-wing UAVs are ideal for missions that require long-range aerial intelligence and high-efficiency mapping.
Why Fixed-Wing Drones Matter in 2025
As industries become more data-driven, the demand for high-resolution, geospatially accurate data is growing exponentially. Fixed-wing drones meet this demand by offering:
Extended Flight Time: Capable of staying airborne for 60–180 minutes.
Large Area Coverage: Perfect for mapping hundreds of hectares in a single flight.
Fuel and Power Efficiency: Uses less energy compared to multi-rotors.
Higher Speed and Altitude: Allows fast deployment over difficult terrain.
Key Applications of Fixed-Wing UAVs
1. Land Surveying and Topographic Mapping
Fixed-wing drones, equipped with LiDAR or high-resolution RGB cameras, can quickly scan vast terrains and generate precise topographic maps. This is particularly useful for civil engineering, construction planning, and land development. At Aebocode Technologies, our drone solutions provide centimeter-level accuracy, ensuring that project decisions are based on reliable geospatial data.
2. Precision Agriculture
With the ability to fly over large crop fields efficiently, fixed-wing drones help farmers monitor crop health, detect irrigation issues, and assess yields. Our integrated NDVI and multispectral imaging systems allow for early detection of stress conditions, empowering smart, data-driven decisions in farming.
3. Infrastructure Inspection
Whether it’s pipelines, railways, or power lines, fixed-wing drones offer long-range surveillance with real-time telemetry. Unlike helicopters or ground patrols, drones can safely and affordably inspect remote areas with minimal human risk and environmental disruption.
4. Disaster Response and Environmental Monitoring
In emergency situations, quick aerial assessment is critical. Fixed-wing drones can fly over disaster-hit areas, map flood zones, or track wildfires in real time. Their long endurance allows for continuous data collection, enabling emergency teams to act with precision.
How Aebocode Technologies Leads the Way
At Aebocode Technologies, we don’t just build drones—we build end-to-end aerial data solutions. Our fixed-wing platforms are engineered for durability, precision, and performance, and our software ecosystem ensures seamless data integration from sky to screen.
Key features of our drone systems include:
Autonomous Flight Modes – Simple mission planning with GPS waypoints.
AI-Powered Data Processing – Transform raw data into actionable insights.
Modular Payload Options – Customize with LiDAR, multispectral, thermal, or RGB sensors.
Cloud Integration – Real-time data sync and analytics via our secure platform.
We cater to a wide range of sectors including agriculture, mining, infrastructure, oil and gas, and environmental science. Our mission is to make aerial data more accessible, accurate, and impactful.
The Fixed-Wing vs. Multi-Rotor Debate
While multi-rotor drones are better suited for vertical take-offs, tight navigation, and smaller job sites, fixed-wing UAVs excel in scale, efficiency, and speed. For industries requiring large-scale data collection—especially in rural or remote regions—fixed-wing systems are the preferred choice.
FeatureFixed-WingMulti-Rotor
Flight Time 1–3 hours 20–40 minutes
Coverage Area Up to 5000+ hectares/day Limited
Payload Capacity Moderate to high Moderate
VTOL (Vertical Take-Off and Landing) Optional Built-in
Ideal Use Case Surveying, agriculture, inspection Inspection, filming, surveillance
Aebocode offers hybrid VTOL fixed-wing drones, combining the best of both worlds—easy take-off with the long-range capability of a winged aircraft.
Regulatory Compliance and Safety
Drone operations, especially fixed-wing, often fall under strict aviation regulations. Aebocode ensures that every flight adheres to local DGCA (India) or international aviation guidelines, with trained pilots and mission planning that emphasizes safety, privacy, and compliance.
Choosing the Right Fixed-Wing Drone for Your Needs
Before investing in a fixed-wing drone solution, consider:
Flight Duration Requirements
Terrain Type and Accessibility
Sensor Needs (LiDAR, RGB, Thermal, etc.)
Budget and ROI Goals
Aebocode Technologies offers consultation services to help businesses select the right drone based on mission profile and operational needs.
The Future of Fixed-Wing Drones
With advancements in AI, edge computing, and battery technology, fixed-wing drones are becoming more autonomous, intelligent, and capable. They are no longer just flying machines—they are platforms for data intelligence and smart decision-making.
As 5G and IoT expand connectivity, expect fixed-wing UAVs to be part of integrated smart infrastructure in agriculture, urban planning, and disaster response systems. The integration of swarm technology and BVLOS (Beyond Visual Line of Sight) capabilities will further revolutionize the way aerial data is collected and applied.
Conclusion
Fixed-wing drones represent the next frontier in aerial surveying, inspection, and environmental monitoring. With their superior range, efficiency, and adaptability, they offer unmatched value for industries looking to scale operations with data-first strategies.
At Aebocode Technologies, we are committed to delivering the best in fixed-wing drone solutions—built for performance, tailored for your mission, and backed by expert support. Explore the future of unmanned aerial intelligence with us.
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Eyes in the Sky: How Drone Tech is Revolutionizing Solar Panel Inspection
From Planning to Power-Up — Discover How Drone Intelligence is Supercharging Solar Projects
As the U.S. solar industry continues its rapid expansion, efficiency and precision have become non-negotiable. Whether you're a solar project developer, EPC contractor, or solar farm owner, the path from pre-installation to commissioning is filled with challenges. Enter Solar Panel Drone Inspection — the game-changing solution that’s transforming how solar farms are planned, built, and brought online.
At Clearspot.ai, we specialize in drone-based software solutions that empower solar businesses to see more, know more, and do more — faster and safer than ever before.
Takeoff Before Takeoff: Smarter Site Assessments
Before a single panel is installed, success starts with the land. Traditional site assessments can be time-consuming, costly, and prone to human error. Our drone technology elevates this process — literally.
With high-resolution aerial mapping and 3D terrain modeling, our drones capture accurate geospatial data to help engineers and developers optimize panel placement, identify shading issues, and avoid costly surprises. This data doesn’t just speed up decision-making — it *makes it smarter*.
Precision That Pays Off: Optimizing Layout & Design
Designing a solar farm isn’t just about fitting panels into a field — it’s about maximizing yield. Our drones provide detailed topographical data and thermal insights that help designers fine-tune layouts for maximum sunlight exposure and minimal losses.
With Solar Panel Drone Inspection, you can simulate real-world performance before installation even begins. The result? Better designs, lower costs, and higher ROI.
Fast-Track Commissioning: From Ground Work to Grid Connection
Commissioning a solar farm involves rigorous testing and validation. Traditionally, this step can take weeks. But with drone-based inspections, thermal imaging, and analytics, issues like faulty panels, misaligned arrays, or wiring defects can be spotted and resolved in hours — not days.
Our drones scan vast installations with pinpoint accuracy, delivering instant reports that help teams fix problems on the fly and meet tight project timelines. It’s the difference between delays and delivering power to the grid — on time and on budget.
Beyond the Build: Future-Proof Your Solar Investment
While this article focuses on pre-installation and commissioning, the benefits of drone inspections don’t stop there. Clearspot.ai provides ongoing maintenance solutions using AI-powered drones that continue to monitor system health throughout the life of the solar farm.
With regular aerial inspections, you’ll detect issues early, reduce manual labor, and extend the life of your investment.
The Future of Solar is Already Flying
In a competitive market, the edge goes to those who adopt smarter tools. Solar Panel Drone Inspection isn’t just a trend — it’s the new industry standard. At Clearspot.ai, we're proud to be at the forefront of this shift, helping America’s solar leaders build faster, safer, and smarter than ever before.
Ready to elevate your solar project? Let Clearspot.ai be your eye in the sky.
Visit [Clearspot.ai](https://www.clearspot.ai) to learn how drone intelligence can transform your next solar farm installation.
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Four Years of Data Eng
I am somewhat of an overthinker. I find it hard to absorb/acknowledge patterns and observations without a “formalization” and “documentation” process. In the last 4 years I have been observing some weird patterns and behaviors in the institutions and individuals. As I look forward towards building a fulfilling career I am starting to realize that I need to go through the process of acknowledging the “rules of the game” and the "current state of my bubble". I have decided to use books/articles/videos as the primary form knowledge confirmation.
This is my fourth year into my career as a data/software engineer. I started this journey by teaching myself python as a masters student at the University of Pennsylvania. Before my masters I have worked in the “real world” for about 4 years. I did construction oversight, environmental field sampling, CAD/GIS drafting and some quantitative contaminant modeling. I was lucky enough to realize that the tasks that bring me the most excitement and joy are geospatial mapping, data analysis and data systems scaling (aka speeding up the process in which sample results are tagged as non-compliant - instead of doing it manually). Well, I have been in the tech/tech adjacent world for about 4 years and 6 months now… and I have definitely learned a lot - but at the same time some things still feel confusing.
Things that still confuse me:
Disengagement and apathy in software engineers is much more common than it is in civil or environmental engineers. “Real” [physical world] engineers seem to care about the quality of their work or safety of their structure, and if they don’t personally care their formal certification body ensures that they abide by some collective “code”.
Software engineers (and adjacent) seem to be more individualistic - there is a lot less cooperation. It feels inhumanely competitive sometimes.
The gap between “reality” and “bullshit” is concerningly huge - software engineers' claims are exaggerated and overly optimistic, not sure if it's from a place of ignorance or delusional optimism. Civil engineers are constrained by the physical world, they cannot overpromise and then “bullshit” the specs of their delivered product.
The scientific method and methodical thinking are foreign concepts to (some) software engineers. Even documentation and writing seem to not interest them.
Profit.. Above all - no ethical or moral guidelines - no consideration for long term impacts - or considering second order effects - or taking into account the humanity of the worker - burn out, PIPs, over-exhaustion, mental breakdowns.. I have never seen a civil engineer, environmental engineer have to go through that.
This is intended to be a reference document summarizing the important concepts in Hacking Capitalism Version 0.1.6 written by Kris Nova. The order of the sections is primarily adopted from the sequence at which the book chapters appear.
Drafted on May 9, 2024
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