#Wireless Light Sensor | Explore Tumblr posts and blogs

electronalytics · 2 years ago

Text

Land High Voltage Underground Cable Market Outlook on Key Growth Trends, Factors and Forecast 2032

Land High Voltage Underground Cable Market Overview:

The land high voltage underground cable market refers to the sector that deals with the production, installation, and distribution of high voltage cables that are buried underground for electricity transmission and distribution purposes. These cables are designed to transmit electricity at high voltages, typically ranging from 66 kV and above. Here is an overview of the land high voltage underground cable market, including key factors that drive its growth:

Key Factors:

Increasing Power Demand: The growing demand for electricity, driven by population growth, urbanization, industrialization, and technological advancements, is a key factor in the growth of the land high voltage underground cable market. These cables enable efficient transmission and distribution of electricity to meet the increasing power demand.

Environmental Considerations: Land high voltage underground cables offer several environmental advantages compared to overhead transmission lines. They reduce visual pollution, minimize the risk of damage due to extreme weather conditions, and have a lower impact on wildlife and vegetation. The shift towards underground cables is driven by environmental considerations and regulations.

Urbanization and Space Constraints: In densely populated urban areas, land availability for overhead transmission lines is often limited. Underground cables provide a space-efficient solution, allowing efficient power distribution in urban and suburban areas without the need for extensive land acquisition or rights-of-way.

Reliability and Resilience: Underground cables are less susceptible to disruptions caused by adverse weather conditions, such as storms, lightning, and ice accumulation. They offer enhanced reliability and resilience, minimizing power outages and improving the overall stability of the electrical grid.

Reduced Transmission Losses: High voltage underground cables have lower transmission losses compared to overhead lines. The insulation properties of underground cables help minimize power losses during transmission, resulting in improved energy efficiency and cost savings.

Longevity and Maintenance: Underground cables are designed for long-term use and have a longer lifespan compared to overhead lines. Once installed, they require minimal maintenance, reducing operational costs and ensuring a reliable power supply over an extended period.

Technological Advancements: Ongoing technological advancements in cable design, materials, and installation techniques contribute to the growth of the land high voltage underground cable market. Innovations focus on improving the capacity, efficiency, and reliability of the cables, enabling higher power transmission and optimizing installation processes.

Government Initiatives and Investments: Governments worldwide are investing in the expansion and modernization of their power infrastructure. Initiatives promoting the development of smart cities, renewable energy integration, and grid reliability drive the demand for land high voltage underground cables.

Undergrounding Projects: Many countries are implementing undergrounding projects to replace existing overhead transmission lines with underground cables. These projects aim to enhance the visual appeal of landscapes, improve power reliability, and reduce the impact of power infrastructure on communities.

In summary, the land high voltage underground cable market is driven by increasing power demand, environmental considerations, urbanization and space constraints, reliability and resilience, reduced transmission losses, longevity and maintenance benefits, technological advancements, government initiatives, and undergrounding projects. As the need for efficient and reliable power transmission grows, the market for land high voltage underground cables is expected to expand.

We recommend referring our Stringent datalytics firm, industry publications, and websites that specialize in providing market reports. These sources often offer comprehensive analysis, market trends, growth forecasts, competitive landscape, and other valuable insights into this market.

By visiting our website or contacting us directly, you can explore the availability of specific reports related to this market. These reports often require a purchase or subscription, but we provide comprehensive and in-depth information that can be valuable for businesses, investors, and individuals interested in this market.

“Remember to look for recent reports to ensure you have the most current and relevant information.”

Click Here, To Get Free Sample Report: https://stringentdatalytics.com/sample-request/land-high-voltage-underground-cable-market/6728/

Market Segmentations:

Global Land High Voltage Underground Cable Market: By Company

• Prysmian Group

• Nexans

• Southwire

• Hengtong Group

• Furukawa Electric

• Sumitomo Electric Industries

• Qrunning Cable

• LS Cable & System

• Taihan Electric

• Riyadh Cable

• NKT Cables

Global Land High Voltage Underground Cable Market: By Type

• HV

• EHV

Global Land High Voltage Underground Cable Market: By Application

• Direct Current

• Alternative Current

Global Land High Voltage Underground Cable Market: Regional Analysis

All the regional segmentation has been studied based on recent and future trends, and the market is forecasted throughout the prediction period. The countries covered in the regional analysis of the Global Land High Voltage Underground Cable market report are U.S., Canada, and Mexico in North America, Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe in Europe, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), and Argentina, Brazil, and Rest of South America as part of South America.

Visit Report Page for More Details: https://stringentdatalytics.com/reports/land-high-voltage-underground-cable-market/6728/

Reasons to Purchase Land High Voltage Underground Cable Market Report:

• To gain insights into market trends and dynamics: this reports provide valuable insights into industry trends and dynamics, including market size, growth rates, and key drivers and challenges.

• To identify key players and competitors: this research reports can help businesses identify key players and competitors in their industry, including their market share, strategies, and strengths and weaknesses.

• To understand consumer behavior: this research reports can provide valuable insights into consumer behavior, including their preferences, purchasing habits, and demographics.

About US:

Stringent Datalytics offers both custom and syndicated market research reports. Custom market research reports are tailored to a specific client's needs and requirements. These reports provide unique insights into a particular industry or market segment and can help businesses make informed decisions about their strategies and operations.

Syndicated market research reports, on the other hand, are pre-existing reports that are available for purchase by multiple clients. These reports are often produced on a regular basis, such as annually or quarterly, and cover a broad range of industries and market segments. Syndicated reports provide clients with insights into industry trends, market sizes, and competitive landscapes. By offering both custom and syndicated reports, Stringent Datalytics can provide clients with a range of market research solutions that can be customized to their specific needs

Stringent Datalytics

Contact No - +1 346 666 6655

Email Id - [email protected]

Web - https://stringentdatalytics.com/

#Defense #Remote Monitoring #Wireless Sensors #Power Tools #Emergency Lighting #Security Systems #Environmental Monitoring #Transportation #Renewable Energy #Lithium Thionyl Chloride #Lithium Sulfur Dioxide #Lithium Manganese Dioxide #Lithium Iron Disulfide #Lithium Carbon Monofluoride.

0 notes

athena-gundampla · 8 days ago

Text

HG 1/144 E.F.S.F. (Principality of Zeon Capture/Upgrade) Psycommu Prototype Mobile Suit gMS-α "Gundam" (Char Recolour 0085 ver.)

Time for the Red Gundam, hopefully in advance of it returning for the finale! The Red Gundam is one of the more popular designs from GQuuuuuuX, and it's not unwarranted. It's super detailled, with lots of cool industrial detail including the exposed ammo chains for the head vulcans, and black and orange caution markings, although unfortunately a lot of these need to be painted on rather than being marking stickers.

In universe, the "Red Gundam" is simply a descriptive term, with the unit being the original E.F.S.F. RX-78-2 stolen by Char, painted in his signature red, and with Psycommu technology added, alongside 6 "bits", wireless drone weapons controlled by the Psycommu unit (which you can see as the extra grey parts on either side of the head). Funnily enough, all that was done for the shield was painting over the E.F.F. star with a Zeonic rose insignia. By its modern appearance in UC0085, the insignia is wearing off, and only two bits remain.

Similarly to the Gundam QuuuuuuX, while a lot of the colour separation is adequately done, there are still a ton of details that need to be filled in by painting. All of the orange detailing on the thighs, the orange and grey parts on the booster nozzles on both bits, and the orange piping on the hands and wrists all need to be painted, as well as a few of the smaller auxillary face cameras and some smaller grey details on the knees and backpack. There are some colour correction stickers for the red detailling on the bit nozzles and the black sections on the shield, as well as a couple of eye stickers, however I elected to paint these all as well for consistency, especially with the eyes, which were missing two stickers for the lower "eyes". The black sections on the shield not being colour correct is understandable, but a little disappointing. I do like the effect it gives in concert with the Zeonic rose, appearing like the wings of the Neo Zeon insignia.

I also used a little paint to detail the ridges on the bit fuel tanks, the beam rifle sensor, and the opening at the top of the shield, and added my usual metallic weathering to all of the grey parts.

There were also a few metallic stickers for the shoulders that added green and red "landing lights", which reminded me of the lights on the shoulders of the F00 1/1 Gundam model in Japan, and some green metallic stickers for the magnetic hardpoints on the shoulders, arms, and lower legs.

Theres a basic marking sticker for the Zeonic rose on the chest, and two options for the shield - a 0079 version in red and a more deteriorated 0085 version. As this kit only comes with 2 bits, like the 0085 appearance, I used the more deteriorated sticker.

This kit comes with a lot of cool extras. There's two open fist hand options (but unfortunately only a single left handed open hand, unlike the two included with the GQuuuuuuX). There's also the gundam shield, which can also attach to any of the 3mm hardpoints, as well as be held upright in an open fist or secured to a back attachment piece.

The version of the beam rifle included in the kit is a really interesting interpretation of the weapon, adding detail while remaining super faithful to the lines and silhouette of the original version.

There's also the afforementioned bits. These can can attach to any 3mm peg, including the 6 peg-equipped hardpoint pieces in the kit, as well as to any action base. It doesn't look like there's any way to easily chain them together in groups of three like in the anime, however.

There are two basic beam saber effects for the kit, although the pink colour seems to have been updated, making it more vibrant and opaque, and slightly pearlescent. It's certaintly a welcome upgrade, as it helps the colour stand out against all the salmon and red of the mobile suit itself.

The coolest part of this kit has to be the Gundam Hammer. GQuuuuuuX has upgraded the design in an interesting way, including some guiding nozzles (which I detailled in orange). This kit includes a runner from the RG 2.0 Gundam to allow for a poseable chain for the flail like weapon, which is likely where a lot of the parts budget went to (robbing us of the extra bits). This is fine from my point of view, since it lets us have the Gundam Hammer inthe GQuuuuuuX style without having to fork over for the P-Bandai Light Guncannon Sayla custom. There's a little specialised piece that lets it be held up by an action base, and it has just the right amount of play to it to be poseable without feeling too stiff. I just wish the chain was a little thinner, so it could be held in one of the other hands for a two handed pose.

This build was really fun to do. While I feel the hip design was a little too restrictive, limiting range of motion, everything comes together quickly and smoothly and you can get the kit to stand securely and hit a bunch of cool poses. I think, given the restrictions of HG pricing, this is probably one of the best HG kits to come out of the GQuuuuuuX line, although you do need to put in the paintwork to make it look good.

This pretty much completes my GQuuuuuuX collection for now, although I'll be keeping my eye out for the GFreD later in the year.

#gunpla #my gunpla #hg gunpla #plamo #model building #gundam #mobile suit gundam #gquuuuuux #gundam gquuuuuux #mobile suit gundam gquuuuuux #gms α #gms alpha #red gundam #char aznable #char #shuji ito #shuji

29 notes · View notes

exitrowiron · 8 months ago

Text

One of the convenient benefits of a Lutron lighting system is the ability to put a wireless switch anywhere and program it to control any light in the house.

When we built the house we only added a motion sensor to activate the closet lights. Occasionally it would be convenient to have an actual switch so I programmed and installed a Pico switch.

Do you like the hack of using a post-it to catch the drywall dust? It worked perfectly.

25 notes · View notes

sngl-led-auto-lights · 1 month ago

Text

Why don't cars have a dash board warning light alerting you when a taillight or headlight is out? You normally don't know until you get pulled over by a cop. Even if you check them before each trip they sometimes burn out while on the trip.

The absence of universal dashboard warnings for burnt-out exterior lights (headlights, taillights, etc.) is a mix of cost, design priorities, and technological limitations—but solutions exist. Here’s why most cars lack this feature and what drivers can do:

Why Most Cars Don’t Warn You Cost-Cutting by Manufacturers:

Adding a monitoring system for every bulb requires additional wiring, sensors, and software, which automakers often omit to keep prices low, especially in budget vehicles.

Example: A $20 circuit to detect bulb failures adds up to millions in production costs across a car model’s lifespan. Simpler Electrical Systems:

Older cars use basic circuits where a burnt bulb doesn’t disrupt the electrical flow (unlike a blown fuse). Modern CAN bus systems can detect failures but aren’t always programmed to alert drivers. Assumption of Manual Checks:

Manufacturers assume drivers will notice via:

Reflections (e.g., light bouncing off garage walls).

Dashboard icons for specific systems (e.g., brake light warnings tied to the brake pedal circuit). Regulatory Gaps:

The U.S. doesn’t mandate bulb-out warnings, though the EU requires rear light failure alerts in newer cars (via ECE Regulation 48).

Cars That Do Have Warnings Luxury/Modern Vehicles: Brands like BMW, Mercedes, and Tesla include bulb monitoring systems in higher trims.

LED Lighting: Many EVs and hybrids with full LED setups (e.g., Ford Mustang Mach-E) self-diagnose faults since LEDs rarely fail abruptly.

Aftermarket Kits: Products like LightGuardian (50–100) plug into taillight circuits and trigger an alarm if a bulb dies.

Why Bulbs Burn Out Mid-Trip Halogen Bulbs: Prone to sudden failure due to filament vibration or temperature swings.

Voltage Spikes: Poor alternator regulation can surge power, killing bulbs.

Moisture/Corrosion: Water ingress in housings causes shorts over time.

Practical Solutions for Drivers Retrofit Your Car:

Install LED bulbs with built-in failure alerts (e.g., Philips X-tremeUltinon).

Use Bluetooth-enabled bulb holders (e.g., Lumilinks) that notify your phone. Routine Checks:

Nightly Reflection Test: Park facing a wall and check light patterns.

Monthly Buddy Check: Have someone press brakes/turn signals while you inspect. Legal Workarounds:

In regions requiring annual inspections (e.g., EU, Japan), mechanics flag dead bulbs.

Use dual-filament bulbs for redundancy (e.g., a brake light that still works as a taillight if one filament fails).

Why It’s Likely to Improve LED Adoption: Longer-lasting LEDs (25,000+ hours) reduce failure rates.

Smart Lighting: New cars with matrix LED or laser lights often self-diagnose.

Consumer Demand: Aftermarket alerts (e.g., $30 Wireless Car Light Monitor) are gaining traction.

Bottom Line

While universal bulb-out warnings aren’t standard yet, technology and regulations are catching up. Until then, proactive checks and affordable aftermarket gadgets can save you from a traffic stop. 🔧💡

Pro tip: If your car has automatic headlights, toggle them to “off” occasionally to manually check all lights in a reflection.

7 notes · View notes

jenroses · 5 months ago

Text

Still more applied fork theory:

Problem: Sitting at a computer is Bad For Me for a variety of reasons, including back problems caused by arthritis/EDS/scoliosis, clotting risk caused by genetic clotting disorder, fatigue caused by ME/CFS. Also I have migraines and sensory issues and really need to control the light around me.

Solution: Instead of using a chair/desk setup, I use the following:

A twin XL adjustable bed (I got mine from Amazon but the quality has been so-so, I ended up needing to prop part of it up on jack stands because the legs were not Up To The Task. The motor is good? IDK, shop around.)

With a cheap extra firm memory foam mattress

a softer memory foam topper (very cheap: I ordered a queen and cut it into 2 pieces, one for my wheelchair and one for the bed)

Tencel bedsheets (sensory GOOD, Brielle are not terribly expensive)

1 overstuffed memory foam bits pillow that came with the mattress covered with a dark colored tencel pillowcase goes under the mouse hand

2 squishmallows, one under my knees and one that goes between me and the bedrail to support my elbow (the big ones from costco)

A squishy memory foam travel U-shaped pillow for my neck to keep it well aligned (cheap cheap cheap)

And a bedrail that straps around the bedframe to hold it in place.

My kids mounted a rail system to the ceiling and we hung blackout curtains from it, so I can shut out all external light if need be. This was surprisingly inexpensive.

In the winter, I use one of those big old fake sheepskin rugs from costco under my head and shoulders for cozy. And sometimes an electric blanket.

The room is air conditioned with a window air conditioner, and I have a remote

There is an air filter running 24/7 in this room because I spend so much time here and am allergic to my cats who I love very much.

This bed is next to the wall, daybed style. The computer setup is as follows:

A desktop computer on a shelf. I built the computer in a dark case with no RGB parts and did not plug in the LED front panel sensors.

A monitor on a monitor arm.

A metal shelf that mounts between the monitor and the monitor arm that I attached my speakers and webcam to.

Another shelf above it for miscellany.

A little basket over my shoulder for sundries

A gooseneck clamp for my phone mounted to the shelf (I have one of these upstairs mounted to my headboard, too. They're very easy to move the clamp, very secure, and sturdy as heck.)

A Logitech k360 wireless keyboard rests on my belly (and sometimes on a pillow on my belly if my wrists are being tetchy)

I use a vertical mouse (sometimes Jellycomb, currently this one) on the stiff pillow next to me. The wrist position is extremely neutral. I set my mouse sensitivity to high so I don't have to move my wrist very much.

I use Edifier noise canceling headphones when I need to block out extraneous sound

creative pebbles speakers and a Logitech c920 webcam, but that's not mission critical

To make it easier to turn my computer on and off, I got a magnetic button to stick to the side of the case so I can reach better from the bed.

This puts my whole body in a neutral, optimal circulation position where the monitor is well aligned to my head and neck and my hands and wrists are aligned and supported and I need to expend minimal energy when at the computer. Everything is close at hand and I can easily control my environment for light, temperature and sound. I raise the knees and head of the bed to a "zero g" position and use the squishmallows and pillows to further support things as needed. The wireless keyboard and mouse are very helpful.

For me, the logitech k360 is a combination of lightweight, relatively small while still being "full size", light touch, and "soft clicky" as well as widely available and cheap as fuck. It's also pretty resilient to being dropped or spilled on, and if it does break, it's cheap and fast to replace at a nearby store same-day. Preferences for keyboards are highly individual, this one just works very well for me. When my hands and shoulders were bad due to RA, I got two of them and (using both dongles plugged into separate USB ports) put one under each hand in the most neutral positions possible for a cheap-ass version of a split keyboard. Two of these are half the cost of most split keyboards.

This pic is from before we put up the blackout curtains. Yes, that's the fridge behind my head.

12 notes · View notes

e-carlease · 3 months ago

Text

And amazing options like the new Renault 5 EV will be high on the agenda. This “hot-hatch” has taken the UK’s BEV market by storm and is aiming to not only become a top-seller but to win an array of awards … already awarded the “car of the year” in 2025 the R5VOLUTION is poised to do much more.

Customers can head to Renault to choose between 3 essential options including:

Evolution - from £22,995 this will include 18” black alloys, 10” openR media screen, air conditioning, handsfree key card, LED lights, heat pump, wireless smartphone replication, 11kW AC charging and V2L Bidirectional charging ready, vehicle sound, cruise control, rear parking sensors, emergency brake assist and heat pump;

Techno - from £24,995 this will add 10” digital driver display, Google built-in, adaptive cruise control, shark antenna, rear-view camera, central armrest, electric mirrors, V2L adaptor an “5” charging indicator on the bonnet; and

Iconic Five - from £26,995 this adds 18” chrono alloys, heated steering wheel, driver lumbar adjustment, active driver assist, blind spot warning and heated front seats.

But how does the new R5 perform?

52 kWh 150ps - (this has a usable battery of 52 kWh which offers 110 kW (148hp), top speeds of 93 mph and 0-62 times of 8.0 seconds. Real-world ranges suggest a combined 165 miles in colder weather with warmer temperatures to allow for 230 miles (on a full charge) - combined overall at 200 miles. The 11kW AC allows for 0-100% charging times of 5 hour and 45 minutes with the 100 kW DC enabling 10-80% in 33 minutes. It has a 156 mpg equivalent, 326L cargo volume and offers towing capacities of 500kg (Braked and Unbraked). There is a heat pump on this EV. This model has Bidirectional Charging with the V2L (via an exterior 3.7kW outlet), V2H and V2G all confirmed.

#renault #renault 5 #cars #car lease #car leasing #electric cars #Ev #BEV #renault 5 ev

8 notes · View notes

burnwater13 · 2 months ago

Text

Grogu standing with a variety of LEGO mini-figures and the partially constructed LEGO Robot World kit (60421). Other figures are hovering in the background trying to figure out how they can help.

Impossible!

Well… Grogu had tried to make appropriate controls for this power suit, but it wasn’t really going all that well. Between the issue of not really being able to discern blue from red, he also had the issue of finding parts small enough to do the work. He’d asked his dad if he could visit with the Anzellans, feeling certain that they had already resolved issues much like this, but Din Djarin told him that the Anzellans were still within the ninety day time-out frame work they had insisted the Mandalorian honor after Grogu’s last visit to their workshop.

He’d apologized as many times as he could but the Anzellans had been adamant that apologies for squeezing them all too tightly couldn’t be accompanied by hugs that were too tight, thus squeezing them uncomfortably again. Grogu supposed he could just shake hands with them, but that never felt like enough. Yet clearly, it had been too much, from the perspective that mattered most, the Anzellans’.

He’d asked Din Djarin to help him and explained what he wanted to do and how they would use wireless technology to automate the power suit so he didn’t have to have wires, cables, strings, or anything like that extending from the suit. It was a power suit, not a puppet. Again, Grogu was thwarted. The Mandalorian understood the requirements, but he had no ability to cause them to come into existence. Which was a pity because Grogu had watched his dad, on more than one occasion, take apart the engine of the N-1 and put it back together and have it work even better. How could setting up the servos, sensors, and remote controls be harder than adjusting the timing of the input and output of the energy transfer matrix? That didn’t make sense to Grogu.

Now they were both sitting on the front porch of the cabin pouting. Grogu assumed that the Mandalorian was pouting because he wasn’t doing any of the things he normally did to relax. He wasn’t polishing random pieces of armor. He wasn’t checking the technical update sites for starship maintenance tricks and tips. He wasn’t even sleeping. He was just sitting there being quiet. It was unnerving.

Grogu had tried to take his mind off his problem with the power suit by doing some tried and true techniques for unclogging your brain. He’d learned them at the Jedi Temple and they were usually pretty good.

He tried exercise first. Sometimes just running, or in his case, trotting, around a course could get your blood flowing and help get those stuck thoughts unstuck. On his second lap around the pond he’d tripped over a stick and fell on his face and had to use the Force to heal the cut on his nose before his dad could go get the first aid kit. The first aid kit was fine for humans and most other life forms, but Grogu’s species, whatever it was, found the disinfectant it contained to be particularly annoying. First it stung, then it tingled, then it stung again and then it smelled bad for hours. It didn’t heal anything and it didn’t stop anything from hurting. So exercise did not help.

Then he tried meditating. Another tried and true method of getting a brain to function laterally or just at all in his case. Luke had actually taught him some variations of what Grogu had learned at the temple and he was eager, for once, to give them a try.

“Imagine yourself being the object you want… what does that shape feel like? How do you move as that shape? Are you heavy or light? Consider what you know and think about being that object…”

At the time Grogu had been very hungry and was mostly interested in catching some frogs so he could have a snack. The problem with Luke’s method was that he was successful at imagining himself being a frog. As a frog he was completely grossed out by the thought of eating another frog as a snack and really wanted some nice juicy bugs. That broke his concentration because as Grogu, he had already had more than enough ‘nice juicy bugs’ and couldn’t stand the thought of eating one more.

Trying to use that to help him come up with the designs he needed to operate the power suit remotely just tested his imagination more than he could bare. He could imagine being in the suit. He could imagine being the suit. What he couldn’t imagine was how any signal was going from him the separate person to him the suit. That was a pretty big and very frustrating problem. It also gave him a headache and he had to use the Force to heal himself again.

He was going to try another method which would have involved taking something apart that already behaved in the desired manner. He had wanted to take R5 apart but his dad said absolutely not. The mech was quirky enough as it was. Taking it apart might result in it never working again. Grogu agreed that would be bad (mostly) and found himself sitting next to his dad on the porch doing his own pouting.

A breeze started to blow and all sorts of leaves and tiny sticks started skittering across the floor of the porch. Normally Grogu liked when that happened. He’d watch the show that nature put on for him and laugh and giggle at the various problems that debris encountered as it ended up sheltered by the wind or caught in a corner or pushed over the edge of floor boards by the door to the cabin opening or closing. It was a small thing, but it amused him most days. He found that when he was busy pouting he really didn’t want to be amused by such a small thing and almost without thinking he moved his hand and used the Force to push all the debris off the floor. It fluttered in the air for a moment or two and then fell into the grasses and plants that acted as ground cover around the cabin.

If only getting the power suit to do what he wanted was that easy…

Huh? Wait a minute! Of course. He could just use the Force. It wasn’t like he wanted his dad to have a crack at moving the power suit around. He wanted to do it as part of playing with the new building set! Uff! Why hadn’t he thought of that earlier? Yippee!

“Buddy, that happens to all of us. Now go on inside and test out your theory. I’ll be right here if you need me.”

Dank Farrik! His dad hadn’t been pouting at all! He’d just been keeping an eye on Grogu. That crafty Mandalorian. No wonder he was such a good/great bounty hunter. He really did have a extra sense for what people were feeling. Maybe that’s why he was such a good dad too. That was possible, right?

#grogu #the mandalorian #din djarin #star wars #lego star wars

4 notes · View notes

stevenketterman2 · 3 days ago

Text

Smart Automation in Stage Lighting & LED Fixtures: A Game-Changer for Live Events

In today’s world of live shows, concerts, weddings, and big corporate events, one thing has become super important: the lighting. But we’re not just talking about ordinary lights anymore. We’re talking about smart lights that can move, change color, follow people, and sync perfectly with music or video—all by themselves. This is called smart automation, and it’s changing the game in stage lighting and LED setups.

Let's have a look at what it is, how it operates, and why so many event professionals are making the transition.

What is Smart Automation in Lighting?

Smart automation refers to employing technology to automatically switch lights on and off rather than having to change them manually. With a single command or click, an entire lighting system can cycle through color change, move in sequence, or respond to audio. These systems can be pre-programmed or even programmed to change live during the event.

So, rather than someone at a lighting desk pushing buttons for every adjustment, the system recognizes what to do and executes it flawlessly each time.

How Does It Work?

To grasp smart lighting, a couple of straightforward tools behind the magic are:

DMX Control: It is similar to the vocabulary that lighting gear speaks to communicate with one another. This helps the lights, controllers, and other gear to coordinate with one another.

Wireless Control: Most smart systems today use Wi-Fi or Bluetooth to communicate. Goodbye, cumbersome long cables everywhere.

Mobile or Remote Access: Lights can be accessed using a tablet or laptop. Some systems even support remote control from another room.

Sensors and AI: Motion sensors can make lights track an individual on stage. Artificial Intelligence can even recommend lighting effects depending on what's happening at the show.

Why Smart Lighting is a Top Choice

There are plenty of reasons that smart lighting is increasing rapidly:

Perfect Timing Every Time

Lights switch on and off exactly when they should—no delay, no error. Whether it's in the middle of a speech, a tune, or a dance, everything unfolds right on schedule.

Improved Creativity

Smart systems enable you to create fantastic scenes. You can achieve mood shifts, glowing effects, moving lights, and a lot more. All this can be achieved with just one touch of a button.

Saves Time and Effort

After programming the lights, they do the work on their own. You don't require a large group to operate them, thus saving lots of time at the time of setting up as well as during the event.

Works from Anywhere

Since it's wireless and remote-capable, technicians can update it in a snap, even when they're not on stage.

Real-Life Examples

You find yourself at a concert. The performer comes out onto the stage. The lights suddenly darken, a spotlight trails the performer, and flashing colored lights caper in the background—all tastefully in time to the rhythm of the song. That's intelligent automation at work.

Or maybe you’re watching a fashion show. As each model walks down the runway, the lights automatically shift to highlight them, while LED screens show matching colors and designs. It’s smooth, stylish, and all automated.

Good for Big Events AND Small Ones

The good news? Intelligent lighting isn't reserved for huge stadium concerts. Even smaller events such as school events, church services, or birthday parties can benefit from this technology. There are easy systems to get that are simple to learn and not expensive at all.

You can begin with a few smart LED lights and a simple controller or app. After getting comfortable, you can expand with more features in the future.

What to Remember Before Getting Started

If you're considering incorporating smart lighting, here are some key points to remember:

Check for Compatibility: Ensure that your lights and control systems are compatible.

Learn the Fundamentals: Simple programming can lead to huge differences.

Build a Solid Network: A stable wireless connection is crucial.

Stay Safe: Lights and trusses weigh or heat up—ensure proper installations.

And also, it's best to purchase your equipment at professional audio stores. They will advise you on what is best and provide you with quality equipment that performs better and lasts longer for your events and even installation and setup services so that buyers don't have to deal with the technicality.

What's Coming Next?

Technology is advancing quickly. Smart lighting's next big thing is interaction systems. These lights can adapt to the crowd's movement, respond to the noise of clapping or cheering, and even adjust to the mood of a space. Some lights can be operated with voice commands or motion detectors.

Artificial Intelligence is also joining the party—there are systems that learn from run-throughs and can adjust the lighting for the next show automatically. Stage lighting in the future is promising and bright.

Before You Go

Intelligent automation of stage lighting and LED light fixtures is more than a bells-and-whistles upgrade—it's an intelligent investment for anyone producing live events. It gets your show to look more professional, conserves time, and permits greater creativity.

Whether you are organizing a concert, wedding, school play, or corporate event, intelligent lighting enables you to provide an unforgettable experience for your audience. With some planning and proper equipment, you can enhance your lighting game to the next level.So if you're organizing your next function or just wanting to upgrade your setup, it's a good time now to look at smart lighting. It's simpler than you might imagine—and it's worth it.

#pro audio #pro audio equipments #led lights #stage lighting #dj #DJ gears #music

2 notes · View notes

wolfliving · 7 months ago

Text

Bossware Surveillance Buildings

A case study on technologies for behavioral monitoring and profiling using motion sensors and wireless networking infrastructure inside offices and other facilities"

Wolfie Christl, Cracked Labs, November 2024

This case study is part of the ongoing project “Surveillance and Digital Control at Work” (2023-2024) led by Cracked Labs, which aims to explore how companies use personal data on workers in Europe, together with AlgorithmWatch, Jeremias Prassl (Oxford), UNI Europa and GPA, funded by the Austrian Arbeiterkammer.

Case study “Tracking Indoor Location, Movement and Desk Occupancy in the Workplace” (PDF, 25 pages) Summary

As offices, buildings and other corporate facilities become networked environments, there is a growing desire among employers to exploit data gathered from their existing digital infrastructure or additional sensors for various purposes. Whether intentionally or as a byproduct, this includes personal data about employees, their movements and behaviors.

Technology vendors are promoting solutions that repurpose an organization’s wireless networking infrastructure as a means to monitor and analyze the indoor movements of employees and others within buildings. While GPS technology is too imprecise to track indoor location, Wi-Fi access points that provide internet connectivity for laptops, smartphones, tables and other networked devices can be used to track the location of these devices. Bluetooth, another wireless technology, can also be used to monitor indoor location. This can involve Wi-Fi access points that track Bluetooth-enabled devices, so-called “beacons” that are installed throughout buildings and Bluetooth-enabled badges carried by employees. In addition, employers can utilize badging systems, security cameras and video conferencing technology installed in meeting rooms for behavioral monitoring, or even environmental sensors that record room temperature, humidity and light intensity. Several technology vendors provide systems that use motion sensors installed under desks or in the ceilings of rooms to track room and desk attendance.

This case study explores software systems and technologies that utilize personal data on employees to monitor room and desk occupancy and track employees’ location and movements inside offices and other corporate facilities. It focuses on the potential implications for employees in Europe. To illustrate wider practices, it investigates systems for occupancy monitoring and indoor location tracking offered by Cisco, Juniper, Spacewell, Locatee and other technology vendors, based on an analysis of technical documentation and other publicly available sources. It briefly addresses how workers resisted the installation of motion sensors by their employers. This summary presents an overview of the findings of this case study….

6 notes · View notes

electronalytics · 2 years ago

Text

Industrial Primary Lithium Batteries Market Outlook on Key Growth Trends, Factors and Forecast 2032

Industrial Primary Lithium Batteries Market Overview:

The industrial primary lithium batteries market refers to the market for non-rechargeable lithium batteries used in various industrial applications. These batteries offer high energy density, long shelf life, and reliable performance, making them suitable for critical and demanding industrial operations. Global Primary Lithium Battery Market Insight [2023-2030] Estimated to Reach USD 3907.4 Million (Growing at a CAGR of 4.3%)

Here is an overview of the industrial primary lithium batteries market and its key factors:

Key Factors:

Industrial Applications: Industrial primary lithium batteries find extensive use in a wide range of industries such as oil and gas, mining, manufacturing, transportation, aerospace, defense, and utility sectors. These batteries power various equipment and devices, including remote monitoring systems, sensors, meters, wireless communication devices, and backup power solutions.

High Energy Density: Industrial primary lithium batteries are known for their high energy density, meaning they can store a significant amount of energy in a compact size. This characteristic is crucial in industrial applications where space is limited, and long-lasting power supply is essential.

Long Shelf Life: Lithium batteries have an extended shelf life, retaining their charge even when stored for extended periods. This is advantageous in industrial settings where batteries may need to be deployed on-demand or stored as backup power solutions.

Temperature Performance: Industrial primary lithium batteries offer excellent performance in extreme temperatures, including high and low temperature conditions. This makes them suitable for applications that require reliable operation in harsh environments.

Reliability and Safety: Industrial operations often rely on critical equipment and systems where reliable power supply is crucial. Primary lithium batteries are known for their stable voltage output and consistent performance throughout their lifespan. Additionally, they are designed with safety features to prevent issues such as leakage or thermal runaway, ensuring safe operation in industrial environments.

Durability and Resistance: Industrial primary lithium batteries exhibit durability and resistance to vibrations, shocks, and various environmental factors such as humidity, dust, and chemicals. These characteristics make them suitable for rugged industrial applications and challenging operating conditions.

Cost-effectiveness: Although the upfront cost of primary lithium batteries may be higher than other battery types, their long service life and reliable performance make them cost-effective solutions for industrial applications. The reduced need for frequent battery replacements and maintenance contributes to overall cost savings.

Technological Advancements: The industrial primary lithium batteries market benefits from ongoing technological advancements. These include improvements in battery chemistry, materials, and design, resulting in enhanced energy density, extended operational life, increased safety, and better performance in various industrial environments.

Increasing Industrial Automation: The growing trend of industrial automation and digitization drives the demand for reliable and long-lasting power solutions. Industrial primary lithium batteries provide the necessary energy supply for automated systems, wireless communication, and remote monitoring, supporting the advancement of industrial automation.

In summary, the industrial primary lithium batteries market is driven by the wide range of industrial applications, high energy density, long shelf life, temperature performance, reliability, safety, durability, cost-effectiveness, technological advancements, and the increasing adoption of industrial automation. As industrial operations continue to evolve and demand reliable power solutions, the market for industrial primary lithium batteries is expected to grow.

“Remember to look for recent reports to ensure you have the most current and relevant information.”

Click Here, To Get Free Sample Report: https://stringentdatalytics.com/sample-request/industrial-primary-lithium-batteries-market/6709/

Market Segmentations:

Global Industrial Primary Lithium Batteries Market: By Company

• EVE Energy

• SAFT

• Hitachi Maxell

• GP Batteries International

• Energizer

• Duracell

• Varta

• Changzhou Jintan Chaochuang Battery

• Vitzrocell

• FDK

• Panasonic

• Murata

• Wuhan Lixing (Torch) Power Sources

• Newsun

• Renata SA

• Chung Pak

• Ultralife

• Power Glory Battery Tech

• HCB Battery

• EEMB Battery

Global Industrial Primary Lithium Batteries Market: By Type

• Li/SOCL2

• Li/MnO2

• Li-SO2

• Others

Global Industrial Primary Lithium Batteries Market: By Application

• Automotive

• Security Equipment

• Communication Equipment

• Others

Global Industrial Primary Lithium Batteries Market: Regional Analysis

All the regional segmentation has been studied based on recent and future trends, and the market is forecasted throughout the prediction period. The countries covered in the regional analysis of the Global Industrial Primary Lithium Batteries market report are U.S., Canada, and Mexico in North America, Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe in Europe, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), and Argentina, Brazil, and Rest of South America as part of South America.

Visit Report Page for More Details: https://stringentdatalytics.com/reports/industrial-primary-lithium-batteries-market/6709/

Reasons to Purchase Industrial Primary Lithium Batteries Market Report:

• To gain insights into market trends and dynamics: this reports provide valuable insights into industry trends and dynamics, including market size, growth rates, and key drivers and challenges.

• To understand consumer behavior: this research reports can provide valuable insights into consumer behavior, including their preferences, purchasing habits, and demographics.

• To evaluate market opportunities: this research reports can help businesses evaluate market opportunities, including potential new products or services, new markets, and emerging trends.

• To make informed business decisions: this research reports provide businesses with data-driven insights that can help them make informed business decisions, including strategic planning, product development, and marketing and advertising strategies.

About US:

Stringent Datalytics

Contact No - +1 346 666 6655

Email Id - [email protected]

Web - https://stringentdatalytics.com/

#Wireless Sensors #Smart Grid #Power Tools #Emergency Lighting #Security Systems #Environmental Monitoring #Transportation #Renewable Energy #Lithium Thionyl Chloride #Lithium Sulfur Dioxide #Lithium Manganese Dioxide #Lithium Iron Disulfide #Lithium Carbon Monofluoride.

0 notes

spark-hearts2 · 4 months ago

Note

FOLLOW UP: would it be possible to connect a server rack to this?? Actually I don’t know the definition of server rack, but regardless I have. So many muddled questions, ahem, let me sort them.

💥

sorry I exploded trying. Anyway, I’m just gonna put these questions in separate asks so you can go about answering them as you please, and also so I don’t explode you!

QUESTION ONE: could you add servers to this mix? I barely know anything about how servers themselves work (please rant to me about that if you wish, I would LOVE to hear it) but, let me lay out another hypothetical scenario.

Let’s say you have a very large, working system of servers, doing something very cool and gay. And then downstairs in the basement, you have the hackneyed scheme from before: you want to connect these two, because this sentient ai who cannot be named has to pretty much move himself over, since he wasn’t designed to be exported from his, ahem, home.

So you got professional heavy duty servers upstairs, hackneyed scheme downstairs, and you have to make those two guys work together to transfer a REALLY REALLY big program over between them.

How do you go about doing this without killing our POOR DARLING, the anonymous and totally handsome and cool ai? Tell me everything forever. Please

GREAT NEWS!!! There isn't just A way to transfer a shit ton of data from beautiful gay servers to the hodgepodge shit computers, THERE ARE SEVERAL WAYS.

I will answer your questions forever and ever. I love answering questions and I love tech. I can tech you about calculus I love calculus (and I have developed a deep hate of statistics). Long post under cut

Ok! To quickly summarize, there are 3 possible ways to do this. Wired, wireless, and physical. What do I mean by physical? Well, lets just say that cybersecurity people consider physical access to be root access for a reason.

Assuming you can identify the exact hard drives that contain your beautiful unnamed AI, you can just take those hard drives out, carry them up/downstairs, and plug them into your new machine. But this depends on someone on the outside who REALLY knows these machines who can be trusted to pull the correct drives. Also, it's much easier to remove/add hard drives to the actual servers. Those things are built to accept multiple hard drives and you can hotswap them! That means you can add/remove the drives without turning off the computer.

Adding hard drives into the computer hodgepodge is a bit more difficult. PCs only usually have 1-2 SADA cables, so that means only 1-2 hard drives per computer. You can do SADA to HTMI and just have the hard drives as external storage (picture a USB stick) but unlike a USB stick, a hard drive was not designed to be used like this. A hard drive needs power that is usually delivered by the computer, but in this setup that's not happening. You would need a special power supply just to power this one individual thing. Kinda annoying when you have a lot of hard drives to plug in. So why not take a single server unit and put all of the drives in there? Servers are functionally computers, so theoretically connecting it to the cluster should work. Would it be jank and unpredictable? Absolutely! But it (theoretically) would work.

So now lets talk about wired connections. First thing I want to get out of the way is the difference between electricity to deliver data and electricity to deliver power. Data electricity is often called low voltage because, well, it's at a low voltage. Why yell when you can whisper the same information? It's more efficient and with modern sensors, you can get pretty low while still being precise. Power, on the other hand, has to have high numbers. Not every device has a power demand high enough to light things on fire, but for something like a server, the fire potential is yes. Based on how many of yer responses have had to do with fire, you should try looking up electricity in terms of power plants. WARNING: the video linked shows guys at power plant flipping switch only for switch to go up in flames (set to Half-Life sound effects). No one gets hurt but lots of property damage happens. In the next response I will go more into the architecture of data centers and see how much as I can find about how they are wired (I assume like other factories with high demand but I'm not 100% sure)

Here's an interesting video I found as a sample of what's inside.

Now, to run a long fucking cord from the upstairs gay servers to the downstairs shit stack, is really easy! It wouldn't even be that hard to find a cable that long. Heck, why go down the stairs when you can peal off a section of floor and drop the cord down there. Shortest path is a straight line. The issue comes up with trying to convince these two damn things to send/accept data. I will be assuming best possible conditions (as in, same operating system, no weird hardware conflicts) so then the only thing would be to give each machine a compatible IP address. Usually, the wifi router is the one handing out IP addresses, so the addresses are always compatible. A video that explains more about what the fuck that means can be found here.

After that, the computer holding the files has to give access to the computer accepting the files, while the computer reviving the files needs to accept them (turn off any anti-virus or firewall stuff). Once protections have been dropped on both sides, there should be nothing left to stop the transfer of the data!

Here is a literal tutorial on how to do this setup on windows 11. This isn't exactly the same situation, but for the purposes of learning enough to write this situation accurately, this is enough.

After that, all that is left is wireless! The good news is that a computer cluster can appear as a single computer to a router. This is because usually only the 'head' of the cluster is connected to the internet. Then, well, it's just what your computer does every day, sending data back and forth from a server.

You want more detail than that? Well, I don't entirely get it myself quite yet so I'm just going to post some links to further reading.

What is IP address

What is DNS

Ultimately, physically moving the hard drives would take the shortest about of time but require a man on the outside with a lot of skill. A wired connection would be pretty quick but again, required someone to do the wiring and make sure everything is lined up on both sides. Wireless would take a Long time but would be technically possible to do with no one on the outside.

None of this should harm the AI as, well, data transfer is typically just making a copy of the original. In that sense, if you wanted to be 100% technically accurate, both wired and wireless would be making a copy of the unnamed AI. The AI would now exist on both systems.

#tech question #technology #servers #computers #ask #long post #spark #ouh tech essay

4 notes · View notes

redfilledfantasies · 1 month ago

Text

Invigorated Muscle (Chapter 3 of 8)

Carmella Hill’s gaze flicked between the two women seated across from her polished mahogany desk, the soft hum of the city outside a distant lull beneath the deliberate quiet of the room. Bailey Esposito, the younger of the pair, sat stiffly, her fingers nervously folding and unfolding at her lap. Her eyes darted momentarily toward Carmella before darting away, betraying the deep undercurrent of anxiety roiling beneath her polished exterior. Opposite her, Lydia Andersson’s posture was a study in controlled command—the subtle swish of silk, the slow, deliberate movements of fingers resting lightly on her knee, all radiating a quiet, sensual certainty that filled the space with electricity.

Carmella inclined her head slightly, voice steady, the practiced calm of a seasoned cardiologist meeting the gentle quake in Bailey’s shoulders. “Ms. Esposito, I’ve reviewed your resume with interest. You mentioned several research projects during your time at Harvard, particularly in sports cardiology. Could you elaborate on the scope and findings of your work?”

Bailey swallowed, cheeks tinting a soft rose as she straightened with a subtle but determined breath. “Y-yes, Dr. Hill,” she began, her voice low, uneven at first. “Most of my work focused on heart rate variability during high-intensity interval training. I studied how the autonomic nervous system responds in athletes under strain, particularly how recovery kinetics vary with different training protocols.”

Her hands lifted, now more sure as she gestured with careful precision. “Using wireless ECG sensors and pulse oximeters, I monitored cardiac output and oxygen saturation in a cohort of collegiate runners. We aimed to understand how various stressors influenced stroke volume and ventricular compliance, especially during brief recovery periods. The data indicated a marked improvement in heart rate recovery when athletes incorporated targeted breathing exercises post-workout.”

Carmella’s eyes sharpened, tracking the shift in Bailey’s tone—from tentative to knowledgeable—like a crescendo unlocking hidden chambers of skill and passion. The young woman’s hazel eyes glistened beneath the polished lighting as she continued, weaving through technical jargon with growing assurance. “I also developed an experimental protocol combining treadmill sprints with variable resistance cycling, measuring real-time ECG and lactate thresholds. The results challenged conventional wisdom, suggesting the myocardium can sustain higher contractile force for longer periods than previously documented.”

Throughout Bailey’s discourse, Lydia’s gaze did not waver. Her sapphire eyes locked with Carmella’s in fleeting moments that felt charged and deliberate. The barest tilt of her lips, a tongue tracing lightly across sensuous curves, drew Carmella’s attention as if gravity pulled her focus away from the clinical review unfolding beside her. Lydia’s posture shifted slightly forward, the gentle arch of her neck revealed beneath a silken blouse that threatened to unravel the sterile calm of the office with whispered promise.

Carmella fought to tether herself to Bailey’s voice, to the notes of clinical achievement and focused intellect. But Lydia’s presence shimmered like a slow, consuming fire at the edge of her senses—the faint scent of jasmine mingling with something warmer, a taut thrill fluttering beneath ribs like a wild pulse she could neither deny nor fully embrace.

The narrative continued—Bailey describing her methodology in granular detail, the careful calibration of sensors, the statistical analysis that pushed boundaries. She explained how she tracked VO2 max and heart rate variability to map the nuanced interplay between physical exertion and cardiac response. Carmella watched the subtle glow of competence bloom across Bailey’s features, how a shy smile replaced the earlier tight tension, how her whole demeanor unfurled like a petal soaked in sun.

Yet with every word Bailey spoke, Carmella’s awareness wavered, split between two realities. The confident crescendo of Bailey’s presentation contrasted starkly with the slow, deliberate movements of Lydia—the quick, graceful adjustment of a sleeve revealing flawless arms, the soft licking of lips that captured the light as though they were pledging silent invitation. Lydia’s intense, unblinking stare burned through Carmella’s composure, coaxing rapid breaths and a swelling heat beneath the pristine fabric of her blouse.

Fingers clenched reflexively around the edge of the desk, Carmella’s pulse hammered in her ears—a fierce, insistent tempo that made the clinical walls seem suddenly thin and brittle. The unspoken charge in the room grew taut, an invisible wire stretched tight between patient inquiry and predator’s gaze.

When Bailey finally drew her thoughts to a close, a delicate flush painted her cheeks. Her hazel eyes flickered toward Carmella, shy anticipation mingling with hope. “That’s… pretty much the scope of my work. I’d be thrilled to continue exploring these cardiac dynamics under more varied conditions.”

Carmella exhaled slowly, the warm pulse in her chest steadying beneath the rush of distraction. “Your research is thorough, Ms. Esposito. Your attention to detail and your ability to translate complex concepts into actionable protocols is impressive. It’s clear you have a deep commitment to sports cardiology, and that’s the kind of passion that can push our understanding further.”

The corner of Bailey’s mouth lifted into a grateful smile—bright and tentative—a small light flickering in the charged shadow that lingered between the three women. Carmella’s glance flicked once more toward Lydia, whose lips parted slightly, the faintest curve of satisfaction playing across her face. A slow breath drew in Carmella’s lungs as she steeled herself, the race between mind and body just beginning.

The quiet sanctuary of the office braced itself for the next step.

Carmella’s eyes pivoted slowly from the polished edges of Bailey’s restrained figure to the poised eminence of Lydia Andersson. The room’s oxygen thickened in the pause, pregnant with anticipation as Carmella's voice cut sharply, an anchor amidst the shifting currents. “Dr. Andersson, please walk me through your work—the precise mechanisms you study, and how you witness the heart’s artistry within the athletes you monitor.”

Lydia’s gaze lifted with the grace of a tidal swell, sapphire eyes capturing Carmella’s own in a gaze that stretched time and stilled the tremors of the room. Her lips parted in a slow, deliberate curve before her voice rose—velvet and warmth threading the cool space like a secret whispered behind closed doors. “I focus extensively on the kinetics of cardiac output in elite athletes—sprinters, endurance runners, cyclists—their hearts are not simply organs. They are fierce engines, pumping perfectly with incredible force and passion. Every beat is a strike of thunder beneath the skin, a testament to controlled chaos within.”

She leaned forward slightly, the light silk of her blouse sliding gently over her curves, framing her slender neck and shoulders with an ease that seemed to dare and demand attention. “When I record their heartbeats, it’s not mere data—it’s a symphony of power and vulnerability, a rhythm I trace with exquisite care. The cardiograms bloom beneath my eyes—waves undulate in sweeping crescendos, hearts thrashing with great force, like tempests trapped within ribcages, all revealed in those intricate, shimmering lines.”

Carmella felt the air shift, charged as Lydia’s voice thickened with an almost palpable longing. “The subtle variances, the arrhythmic slips—they are not failures but sparks of wild vitality. It is in those moments that the heart sings loudest, thrumming with desire and exertion intertwined. I visualize the muscle fibers contracting, fibers pulsing beneath satin skin, veins coursing like tributaries of sheer will.”

Her words wove between the clinical and the sensuous, spilling delicate secrets that tickled nerve endings as much as the intellect. Carmella’s eyes flickered involuntarily to Bailey, whose breathing began a soft quickening, her posture straightening against the subtle tug of awakening curiosity and heat.

“The pulse in these athletes is a narrative of endurance writ large,” Lydia continued, voice dropping to a husky murmur. “With every measured beat, their hearts unleash torrents of blood surged through vessels tempered by iron and sweat, thudding with a primal rhythm I’ve come to recognize intimately—almost as if the heart itself desires to be witnessed in its naked fury.”

Carmella’s heart betrayed her, pistons firing hard and fast against ribs. Her legs shook, trembling faintly beneath the polished mahogany of the desk, an insistent tremor that refused concealment. Her breath deepened, chest rising and falling with desperate urgency, heart rate racing to an unscripted 130 beats per minute. The rhythm echoed in her ears—too loud, too vibrant—calling her out of controlled detachment and into the raw pulse of sensation.

Across from her, Bailey’s own reactions stirred from shy reverence to subtle arousal. Her hazel eyes widened, nostrils flaring as breaths stole quicker through parted lips. The pulse in her strong, athletic neck throbbed visibly beneath pale skin, surging upward to a steady 80 beats per minute, its momentum matching the flutter of excitement and nervous anticipation tangled in her gaze.

Lydia’s gaze flicked between them, faint amusement glimmering behind her sapphire eyes. Her voice lowered further, each phrase drenched in a beguiling cadence that wove desire and intellect into a seamless dance. “Recording those heartbeats, I do not merely watch numbers climb—I witness living passion encoded in electrical currents. The sudden shifts, the rising and crashing waves on the cardiograms—they are like dancers in wild embrace, hearts competing, joining, pulsating with a life all their own. It’s intoxicating to imagine the friction, the sweat, the force driving muscle and sinew to those limits.”

The taut air bent and stretched around the spoken words, Lydia’s poised movements graceful as she folded her hands loosely in her lap. Carmella’s breath hitched once, fingers twitching beside the smooth surface of the desk, betraying the fierce war between scientist and woman. The line of Lydia’s collarbone showed like a sharp promise, her throat rising delicately as she swallowed slow and controlled, eyes alight with knowing pleasure.

Bailey, hesitant at first, shifted inward, flush blossoming faintly at the hollow of her neck, the subtle sheen of exertion that had marked her demeanor now blossoming into an undeniable warmth. Her fingertips tightened against the fabric of her sleeve, but even as she bit her lip to stifle a breath, the luminous sheen of awakening was unmistakable.

Carmella swallowed hard, the wet pulse humming like a live wire beneath her skin. Her legs trembled with betraying intensity, a flood of blood heating her chest that danced beneath the thin silk of her blouse. The stethoscope, forgotten at her side, clattered softly to the floor in muted protest as her breath stuttered, the room narrowing until only the rhythm of Lydia’s voice and the pounding chorus of her own heart remained.

The room felt suspended on a breath, poised at the cusp of something between revelation and surrender. Lydia’s final words hung like a gentle caress, spoken low and charged with quiet triumph: “And so, Dr. Hill, I trust you understand the depth of devotion we bring—not just as scientists, but as worshipers of the beating heart.”

A slow exhale escaped Carmella’s parted lips, voice catching as she forced a smile with trembling resolve. “Thank you, Dr. Andersson,” she managed, voice uneven but sincere.

Lydia’s sapphire eyes glinted with sly delight, a slow, knowing smile curving her mouth as she leaned forward just enough to bridge the gap between professional formality and daring invitation. “I am Dr. Hill,” she said softly, voice thick with amused acknowledgment, “but clearly not as passionate as you are right now.” Her gaze flickered toward Carmella’s heaving chest, acknowledging the betrayed control with effortless grace and delight.

The room shifted in silent agreement—the sacred and the profane entwined beneath the cool light, an intimate dance played out on the stage of whispered heartbeats and unveiled desire.

Lydia’s sapphire gaze softened just a touch, eyes shimmering with a blend of mirth and raw candor as her voice settled into a silken murmur. “Your comments on my videos don’t just fill me with knowledge, Carmella. They do something to me that tantalizes my senses. They get my blood pumping and my legs shaking with joy as well.”

Carmella blinked, heat crawling over her cheeks like a slow flame. She struggled to mask the quickened pace of her own heart, the rapid tattoo beating at 130 steady strikes, reverberating against her ribs in a wild insistence. “I—I did not intend to… I mean, it was meant purely as professional commentary—”

Lydia’s lips curved wider in a knowing smile that cut sharp through the protest. “Oh, but we both know the power of a well-chosen word,” she whispered, leaning forward just enough for the warm breath to caress Carmella’s temple. “Your insight, your voice—it sparks a riot beneath the surface, doesn’t it? Your critiques—they don’t simply educate me, they awaken parts of me I rarely allow to stir. Parts that delight in every thoughtful observation, every calculated praise.” Her eyes flickered with teasing fire. “Your presence here today—tell me, is it the passion for the heart, or something more primal that holds you captive?”

The words sliced through the tense air, leaving Carmella exposed between professional poise and unguarded hunger. She swallowed thickly, fingers trembling as she fidgeted with a pen on the desk. The fragile line between command and surrender wavered with each breath. “Perhaps we should… conclude the interview,” she stammered, voice small but determined, desperate to reclaim the fractured reins.

But Lydia was relentless. “Conclude? Or pause for what is yet unspoken?” Her eyes glinted with sharp, effortless mischief. “Tell me, Dr. Hill, do you plan to choose between us? Or is there something else simmering beneath your calm exterior? Something that the polite proprieties don’t yet dare confess?”

Carmella’s chest tightened, pulse hammering so loudly it thundered in her ears. Her gaze flicked briefly to Bailey, who sat frozen in quiet shock, fingers tightening in her lap as though bracing against the tremors in the room. The weight of Lydia’s piercing stare drilled into her, unrelenting and piercingly insightful. The slow swell of her heartbeat became a living drum in the silence—raw, undeniable.

She drew a shaky breath, voice dropping to a near whisper. “The plan was… for me to hire both of you,” she confessed, the words falling heavy as if carrying her own measured surrender. “And also…” Her eyes flicked down to the pale wood of the desk, fingers tightening into subtle fists as her heart hammered visibly beneath her blouse, the familiar rhythm quickening beyond control. “Y-yes,” she admitted quietly, “…to perform some experiments, perhaps.”

Lydia’s smile blossomed like a rare bloom, radiant and fierce with excitement. “Ah,” she breathed, voice thick with delight, “now we see the true choreography behind the curtain. To watch not just hearts but souls dance in tandem through challenge and discovery—how intoxicating.”

Bailey remained silent, wide-eyed, cheeks flushed with surprise and something deeper: a mixture of awe and uncertainty swirling behind her timid gaze. The weight of the moment settled heavily upon her slender shoulders, marking an unexpected divergence from the careful expectations she had carried through the interview.

Lydia’s eyes locked once more on Carmella, her smile never faltering, radiant with the thrill of shared revelation and unmasked intention. “You have a brilliant plan, Dr. Hill. One that promises to fuse science, passion, and the very heartbeat of possibility into a rare masterpiece. I find myself eager to see where it will lead.”

The charged silence stretched between them—a fraught pause filled with breath, heartbeat, and the unspoken promises tethering past and future. The office, once a space of rigid protocol, now thrummed with potential energy, caught in the electric hum of desires unspoken but understood.

Carmella exhaled slowly, steadying the wild tempo inside. The careful veneer of her authority had cracked, replaced with a flickering flame of excitement and profound apprehension—an open door swinging into the night’s tantalizing unknown.

With a slow, measured inhale, Carmella summoned the calm she needed. The breath settled, but beneath the surface a faint drumbeat of restless excitement echoed as she said, “I’d like both of you to come to the examination room this Saturday at six in the evening. We’ll begin then.”

Bailey’s eyes lifted, filled with a hesitant spark of hope tempered by genuine confusion. “Examination room? What kind of tests will we be taking?” Her voice was soft, threaded with the naive curiosity of someone stepping into unknown realms.

Carmella met her gaze squarely, voice steady and resolute. “You’re both hired. The details of the tests will be explained when you arrive.” Her tone carried an unmistakable finality that allowed no room for argument, a command wrapped in promise.

Bailey blinked, cheeks tinting a gentle rose, her relief blooming quietly beneath the pulse racing in her neck. “Oh. Well… thank you, Dr. Hill. I’m honored… and a little nervous.” The breath slipped out in a soft exhale, the edges of her uncertainty curling with tentative joy.

Lydia’s gaze held Carmella’s with unwavering intensity—eyes gleaming with shared secrets and future possibilities. The flicker of a passionate, almost predatory smile traced her lips, a silent conversation that passed between them without words: understanding, challenge, and invitation mingled in a heat that stoked the air around the three women.

Carmella rose, smoothing the taut fabric of her blouse over trembling ribs. She stood and gestured toward the door with quiet authority. “Mrs. Walker will escort you out. I look forward to Saturday.” Her voice was calm but the low burn beneath remained palpable.

The two women rose as well. The gentle rustle of movement echoed softly, the sound weaving through the charged air of the office. Carmella’s heels clicked measured against polished wood as they stepped toward the exit, a slow, intimate choreography that held the weight of unspoken tension.

Bailey was first to depart, pausing briefly by the door to offer a shy but heartfelt, “Thank you, Dr. Hill.” Her hazel eyes held warmth and cautious gratitude, the soft expression folding around the words like a comforting shawl.

Lydia lingered a moment longer, her slender hand reaching forward with deliberate grace. Her palm pressed gently, unyielding yet soft, against the smooth curve of Carmella’s chest. Carmella inhaled sharply at the contact, feeling the rapid thump beneath Lydia’s fingers, a pulsing heartbeat that seemed to leap and gallop like wild horses trapped in fragile ribs.

“My my,” Lydia murmured, voice thick and drenched in invitation, “that’s one strong heartbeat you have, doctor. I’d love to see what happens to it in more… strenuous circumstances.”

Carmella’s breath caught, a shock sparking through her nerve endings. The clash of professionalism and raw desire sent a tremor spiraling through her body—neither denying nor rebuffing the boldness, simply surrendering to the moment’s exquisite tension.

They stood in stillness, a quiet tableau, the fleeting seconds stretching into eternity as Lydia’s fingers traced slow, teasing patterns on the skin above the beat. The air pulsed with promise and possibility—the sacred space where science met flesh in trembling embrace.

Finally, Lydia withdrew her hand with a smile that whispered of secrets yet to be shared. She turned smoothly, the silk of her blouse whispering softly as she vanished down the hallway, leaving Carmella to stand alone in the dimming light, heart racing and thoughts tangled in a symphony of unanswered questions.

Carmella remained, breath slow and deliberate despite the furious pounding that echoed relentlessly in her chest. The warmth of the touch lingered like a delicate brand, an imprint on skin and spirit. She closed her eyes briefly, savoring the tremble of possibility that clung to the shadows.

In the silent sanctuary of her office, beneath the steady pulse of the city, Carmella Hill found herself poised on the fragile edge of discovery, her own heartbeat now a testament to the wild rhythms yet to come.

#cardiophile #dr. carmella hill #heartbeat #cardiophile thoughts #female heartbeat #heartbeat kink #beating heart #cardiology #female heart #dr. bailey esposito #dr. lydia andersson #invigorated muscle #red filled fantasies

2 notes · View notes