{"success":true,"data":{"query":"Dallas Safety Intel","limit":10,"count":10,"sources":["wiki_artificial_intelligence.hat","dallas_safety_intel.hat","wiki_dallas.hat","wiki_real_estate.hat"],"synced":[],"results":[{"source":"wiki_artificial_intelligence.hat","text":"ARTICLE: Artificial intelligence\nArtificial intelligence (AI) is the capability of computational systems to perform tasks typically associated with human intelligence, such as learning, reasoning, problem-solving, perception, and decision-making. It is a field of research in engineering, mathematics and computer science that develops and studies methods and software that enable machines to perceive their environment and use learning and intelligence to take actions that maximize their chances of achieving defined goals.\nHigh-profile applications of AI include advanced web search engines, chatbots, virtual assistants, autonomous vehicles, and play and analysis in strategy games (e.g., chess and Go). Since the 2020s, generative AI has become widely available to generate images, audio, and videos from text prompts.\nThe traditional goals of AI research include learning, reasoning, knowledge representation, planning, natural language processing, and perception, as well as support for robotics. To reach these goals, AI researchers have used techniques including state space search and mathematical optimization, formal logic, artificial neural networks, and methods based on statistics, operations research, and economics. AI also draws upon psychology, linguistics, philosophy, neuroscience, and other fields. Some companies, such as OpenAI, Google DeepMind and Meta, aim to create artificial general intelligence (AGI) – AI that can complete virtually any cognitive task at least as well as a human.\nArtificial intelligence was founded as an academic discipline in 1956, and the field went through multiple cycles of optimism throughout its history, followed by periods of disappointment and loss of funding, known as AI winters. Funding and interest increased substantially after 2012, when graphics processing units began being used to accelerate neural networks, and deep learning outperformed previous AI techniques. This growth accelerated further after 2017 with the transformer architecture. In the 2020s, an AI boom has coincided with advances in generative AI, which allowed for the creation and modification of media. In addition to AI safety and unintended consequences and harms from the use of AI, ethical concerns, AI's long-term effects, and potential existential risks have prompted discussions of AI regulation.","score":95.54123158795183,"links":[]},{"source":"wiki_artificial_intelligence.hat","text":"Power needs and environmental impacts\nTechnology companies have built electricity and artificial intelligence infrastructure to facilitate the AI boom of the 2020s. A 2025 report from the consulting firm McKinsey & Company estimated that by 2030, $2.7 trillion would be invested into AI infrastructure and data centers in the US, surpassing World War II's Manhattan Project every month.\nIn January 2024, the International Energy Agency (IEA) released Electricity 2024, Analysis and Forecast to 2026. This is the first IEA report to make projections for data centers and power consumption by AI and cryptocurrency. The report states that power demand for these uses might double by 2026, with the additional power consumption equaling that of Japan.\nPower consumption by AI is responsible for an increase in fossil fuel use, and has delayed closings of obsolete, carbon-emitting coal energy facilities. A ChatGPT search involves the use of 10 times the electrical energy as a Google search.\nA 2024 Goldman Sachs Research Paper, AI Data Centers and the Coming US Power Demand Surge, found \"US power demand (is) likely to experience growth not seen in a generation....\" and forecasts that, by 2030, US data centers will consume 8% of US power, as opposed to 3% in 2022, presaging growth for the electrical power generation industry by a variety of means. Data centers' need for more and more electrical power is such that they might max out the electrical grid. The Big Tech companies counter that AI can be used to maximize the utilization of the grid by all.\nIn 2024, The Wall Street Journal reported that big AI companies have begun negotiations with the US nuclear power providers to provide electricity to the data centers. In March 2024 Amazon purchased a Pennsylvania nuclear-powered data center for US$650 million.\nIn September 2024, Microsoft announced an agreement with Constellation Energy to re-open the Three Mile Island nuclear power plant to provide Microsoft with 100% of all electric power produced by the plant for 20 years. Reopening the plant, which suffered a partial nuclear meltdown of its Unit 2 reactor in 1979, will require Constellation to get through strict regulatory processes which will include extensive safety scrutiny from the US Nuclear Regulatory Commission. If approved (this will be the first ever US re-commissioning of a nuclear plant), over 835 megawatts of power – enough for 800,000 homes – of energy will be produced. The cost for re-opening and upgrading is estimated at US$1.6 billion and is dependent on tax breaks for nuclear power contained in the 2022 US Inflation Reduction Act. As of 2024, the US government and the state of Michigan have been investing almost US$2 billion to reopen the Palisades Nuclear reactor on Lake Michigan. Closed since 2022, the plant was planned to be reopened in October 2025.\nAfter the last approval in September 2023, Taiwan suspended the approval of data centers north of Taoyuan with a capacity of more than 5 MW in 2024, due to power supply shortages. Taiwan aims to phase out nuclear power by 2025. \nSingapore imposed a ban on the opening of data centers in 2019 due to electric power, but in 2022, lifted this ban.\nAlthough most nuclear plants in Japan have been shut down after the 2011 Fukushima nuclear accident, according to an October 2024 Bloomberg article in Japanese, cloud gaming services company Ubitus, in which Nvidia has a stake, is looking for land in Japan near a nuclear power plant for a new data center for generative AI.\nOn 1 November 2024, the Federal Energy Regulatory Commission (FERC) rejected an application submitted by Talen Energy for approval to supply some electricity from the nuclear power station Susquehanna to Amazon's data center.\nAccording to the Commission Chairman Willie L. Phillips, it is a burden on the electricity grid as well as a significant cost shifting concern to households and other business sectors.\nIn 2025, a report prepared by the IEA estimated the greenhouse gas emissions from the energy consumption of AI at 180 million tons. By 2035, these emissions could rise to 300–500 million tonnes depending on what measures will be taken. This is below 1.5% of the energy sector emissions. The emissions reduction potential of AI was estimated at 5% of the energy sector emissions, but rebound effects (for example if people switch from public transport to autonomous cars) can reduce it.","score":95.54123158795183,"links":[]},{"source":"wiki_artificial_intelligence.hat","text":"Existential risk\nRecent public debates in artificial intelligence have increasingly focused on its broader societal and ethical implications. It has been argued AI will become so powerful that humanity may irreversibly lose control of it. This could, as physicist Stephen Hawking stated, \"spell the end of the human race\". This scenario has been common in science fiction, when a computer or robot suddenly develops a human-like \"self-awareness\" (or \"sentience\" or \"consciousness\") and becomes a malevolent character. These sci-fi scenarios are misleading in several ways.\nFirst, AI does not require human-like sentience to be an existential risk. Modern AI programs are given specific goals and use learning and intelligence to achieve them. Philosopher Nick Bostrom argued that if one gives almost any goal to a sufficiently powerful AI, it may choose to destroy humanity to achieve it (he used the example of an automated paperclip factory that destroys the world to get more iron for paperclips). Stuart Russell gives the example of household robot that tries to find a way to kill its owner to prevent it from being unplugged, reasoning that \"you can't fetch the coffee if you're dead.\" In order to be safe for humanity, a superintelligence would have to be genuinely aligned with humanity's morality and values so that it is \"fundamentally on our side\".\nSecond, Yuval Noah Harari argues that AI does not require a robot body or physical control to pose an existential risk. The essential parts of civilization are not physical. Things like ideologies, law, government, money and the economy are built on language; they exist because there are stories that billions of people believe. The current prevalence of misinformation suggests that an AI could use language to convince people to believe anything, even to take actions that are destructive. Geoffrey Hinton said in 2025 that modern AI is particularly \"good at persuasion\" and getting better all the time. He asks \"Suppose you wanted to invade the capital of the US. Do you have to go there and do it yourself? No. You just have to be good at persuasion.\"\nThe opinions amongst experts and industry insiders are mixed, with sizable fractions both concerned and unconcerned by risk from eventual superintelligent AI. Personalities such as Stephen Hawking, Bill Gates, and Elon Musk, as well as AI pioneers such as Geoffrey Hinton, Yoshua Bengio, Stuart Russell, Demis Hassabis, and Sam Altman, have expressed concerns about existential risk from AI.\nIn May 2023, Geoffrey Hinton announced his resignation from Google in order to be able to \"freely speak out about the risks of AI\" without \"considering how this impacts Google\". He notably mentioned risks of an AI takeover, and stressed that in order to avoid the worst outcomes, establishing safety guidelines will require cooperation among those competing in use of AI.\nIn 2023, many leading AI experts endorsed the joint statement that \"Mitigating the risk of extinction from AI should be a global priority alongside other societal-scale risks such as pandemics and nuclear war\".\nSome other researchers were more optimistic. AI pioneer Jürgen Schmidhuber did not sign the joint statement, emphasising that in 95% of all cases, AI research is about making \"human lives longer and healthier and easier.\" While the tools that are now being used to improve lives can also be used by bad actors, \"they can also be used against the bad actors.\" Andrew Ng also argued that \"it's a mistake to fall for the doomsday hype on AI—and that regulators who do will only benefit vested interests.\" Yann LeCun, a Turing Award winner, disagreed with the idea that AI will subordinate humans \"simply because they are smarter, let alone destroy [us]\", \"scoff[ing] at his peers' dystopian scenarios of supercharged misinformation and even, eventually, human extinction.\" In contrast, he claimed that \"intelligent machines will usher in a new renaissance for humanity, a new era of enlightenment.\" In the early 2010s, experts argued that the risks are too distant in the future to warrant research or that humans will be valuable from the perspective of a superintelligent machine. However, after 2016, the study of current and future risks and possible solutions became a serious area of research.","score":95.54123158795183,"links":[]},{"source":"dallas_safety_intel.hat","text":"Safety Incident: THEFT OF PROP > OR EQUAL $100 <$750 (SHOPLIFT-NOT EMP) PC31.03(e2A)\nLocation: 1235 S BUCKNER BLVD, DALLAS TX 75217\nTime: 2026-06-03 00:00:00.0000000 at 21:20\nPolice Division: SOUTHEAST\nCouncil District: UNKNOWN\nCoordinates: 32.73401, -96.6835\nSource ID: 080103-2026","score":72.84422557990644,"links":[]},{"source":"dallas_safety_intel.hat","text":"Safety Incident: POSS CONT SUB PEN GRP 1/1-B 1G < 4G\nLocation: 8687 N CENTRAL SERV SB, DALLAS TX 75225\nTime: 2026-06-02 00:00:00.0000000 at 20:00\nPolice Division: NORTH CENTRAL\nCouncil District: UNKNOWN\nCoordinates: 32.86959, -96.77071\nSource ID: 079556-2026","score":72.84422557990644,"links":[]},{"source":"dallas_safety_intel.hat","text":"Safety Incident: CRIM MISCHIEF >OR EQUAL $750 < $2,500\nLocation: 9850 WALNUT HILL LN, DALLAS TX 75238\nTime: 2026-06-01 00:00:00.0000000 at 09:15\nPolice Division: NORTHEAST\nCouncil District: UNKNOWN\nCoordinates: 32.87752, -96.71664\nSource ID: 811167-2026","score":72.84422557990644,"links":[]},{"source":"wiki_dallas.hat","text":"Infrastructure\nPublic safety\nThe Dallas Police Department provides most policing in Dallas. The Dallas Chief of Police is Daniel Comeaux.  The police headquarters are in the Cedars neighborhood of southern Dallas.\nEmergency medical services and fire protection in the city are provided by the Dallas Fire-Rescue Department. The Dallas Fire & Rescue chief is Dominique Artis. The department operates the Dallas Firefighter's Museum built in 1907 along Parry Avenue near Fair Park. Dallas's oldest remaining fire station building still stands at the corner of McKinney Ave. and Leonard and was built in 1892. It was the home of Engine Co. Number 1, and is now a picture framing shop.","score":68.2022929814127,"links":[]},{"source":"wiki_real_estate.hat","text":"A real estate developer who secures funding for the project;\nOne or more financial institutions or other investors that provide the funding;\nLocal planning and code authorities;\nA surveyor who performs an ALTA/ACSM and construction surveys throughout the project;\nConstruction managers who coordinate the effort of different groups of project participants;\nLicensed architects and engineers who provide building design and prepare construction documents;\nThe principal design engineering disciplines which normally include the following professionals: civil, structural, mechanical engineers, building services, HVAC (Heating, Ventilation and Air Conditioning), plumbing and drainage. Other design engineer specialists may also be involved such as fire prevention, acoustic, façade engineers, building physics, Telecoms, AV (Audio Visual), BMS (Building Management Systems) Automatic controls etc. These design engineers also prepare construction documents which are issued to specialist contractors to obtain a price for the works and to follow for the installations.\nLandscape architects;\nInterior designers;\nOther consultants;\nContractors who provide construction services and install building systems such as climate control, electrical, plumbing, decoration, fire protection, security and telecommunications;\nMarketing or leasing agents;\nFacility managers who are responsible for operating the building.\nBuildings are typically subject to planning and building regulations depending on their jurisdiction, including zoning ordinances, building codes, and other regulations such as fire codes, life safety codes, and related standards.\nVehicles—such as trailers, caravans, ships, and passenger aircraft—are treated as \"buildings\" for life safety purposes.","score":62.65458941464843,"links":[]},{"source":"wiki_dallas.hat","text":"ARTICLE: Dallas\nDallas is a city in the U.S. state of Texas. Located in the state's northern region, it is the ninth-most populous city in the United States and third-most populous city in Texas, with a population of 1.3 million at the 2020 census. Along with the city of Fort Worth, Dallas anchors the Dallas–Fort Worth metroplex, the fourth-most populous metropolitan area in the U.S. and the most populous metropolitan area in Texas, at 8.5 million people. Dallas is a core city of the largest metropolitan area in the Southern U.S. and the largest inland metropolitan area in the U.S. that lacks any navigable link to the sea. It is the seat of Dallas County, covering nearly 386 square miles (1,000 km2) and extending into Collin, Denton, Kaufman, and Rockwall counties.\nBoth Dallas and nearby Fort Worth were initially developed as a product of the construction of major railroad lines through the area allowing access to cotton, cattle, and later oil in North and East Texas. The construction of the Interstate Highway System reinforced Dallas's prominence as a transportation hub, with four major interstate highways converging in the city and a fifth interstate loop around it. Dallas then developed as a strong industrial and financial center and a major inland port, due to the convergence of major railroad lines, interstate highways, and the construction of Dallas Fort Worth International Airport, one of the largest and busiest airports in the world. In addition, Dallas Area Rapid Transit (DART) operates rail and bus transit services throughout the city and its surrounding suburbs.\nDominant sectors of its diverse economy include defense, financial services (such as traditional banking, investment banking, private equity, and venture capital), information technology, telecommunications, and transportation. The Dallas–Fort Worth metroplex hosts 23 Fortune 500 companies, the second-most in Texas and fourth-most in the United States, and 11 of those companies are located within Dallas city limits. Over 41 colleges and universities are located within its metropolitan area, which is the most of any metropolitan area in Texas. The city has a population from a myriad of ethnic and religious backgrounds.","score":58.2022929814127,"links":[]},{"source":"wiki_dallas.hat","text":"History\nIndigenous tribes in North Texas included the Caddo, Tawakoni, Wichita, Kickapoo and Comanche. Spanish colonists claimed the territory of Texas in the 18th century as a part of the Viceroyalty of New Spain. Later, France also claimed the area but never established much settlement. In all, six flags have flown over the area preceding and during the city's history: those of France, Spain, and Mexico, the flag of the Republic of Texas, the Confederate flag, and the flag of the United States of America.\nIn 1819, the Adams–Onís Treaty between the United States and Spain defined the Red River as the northern boundary of New Spain, officially placing the future location of Dallas well within Spanish territory. The area remained under Spanish rule until 1821, when Mexico declared independence from Spain, and the area was considered part of the Mexican state of Coahuila y Tejas. In 1836, Texians, with a majority of Anglo-American settlers, gained independence from Mexico and formed the Republic of Texas.\nThree years after Texas achieved independence, John Neely Bryan surveyed the area around present-day Dallas. In 1839, accompanied by his dog and a Cherokee he called Ned, he planted a stake in the ground on a bluff located near three forks of the Trinity River and left. Two years later, in 1841, he returned to establish a permanent settlement named Dallas. The origin of the name is uncertain. The official historical marker states it was named after Vice President George M. Dallas of Philadelphia, Pennsylvania. However, this is disputed. Other potential theories for the origin include his brother, Commodore Alexander James Dallas, as well as brothers Walter R. Dallas and James R. Dallas. A further theory gives the ultimate origin as the village of Dallas, Moray, Scotland, similar to the way Houston, Texas, was named after Sam Houston, whose ancestors came from the Scottish village of Houston, Renfrewshire.\nThe Republic of Texas was annexed by the United States in 1845 and Dallas County was established the following year. Dallas was formally incorporated as a city on February 2, 1856. In the mid-1800s, a group of French Socialists established La Réunion, a short-lived community, along the Trinity River in what is now West Dallas.","score":58.2022929814127,"links":[]}]},"metadata":{},"timestamp":"2026-07-16T21:36:33.701Z"}