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Black Hat SEO Tricks 2018 – Learn how to use and protect form black hat SEO

Black Hat SEO Tricks 2018 will learn you everything about Black Hat SEO Tricks 2018. How to protect from negative seo and social sharing everything about Black Hat SEO Tricks 2018

Black Hat SEO professional. To give you some background, my name is Brian. I’ve been involved in internet marketing for  close to 10 years now, the last 7 of which have been dedicated to Black Hat SEO. As we will discuss shortly, you can’t be a great Black Hat without first becoming a great White Hat marketer.  With the formalities out of the way, lets get into the meat of things, shall we?

What is Black Hat SEO Tricks 2018?

Black Hat SEO Tricks 2018
Black Hat SEO Tricks 2018
black hat seo techniques and strategies 2018
 
The million dollar question that everyone has an opinion on. What exactly is Black Hat SEO Tricks 2018? The answer here depends largely on who you ask. Ask most White Hats and they immediately quote the Google Webmaster Guidelines like a bunch of lemmings. Have you ever really stopped to think about it though? Google publishes those guidelines because they know as well as you and I that they have no way of detecting or preventing what they preach so loudly. They rely on droves of webmasters to blindly repeat everything they say because they are an internet powerhouse and they have everyone brainwashed into believing anything they tell them. This is actually a good thing though. It means that the vast majority of internet marketers and SEO professionals are completely blind to the vast array of tools at their disposal that not only increase traffic to their sites, but also make us all millions in revenue every year.
The second argument you are likely to hear is the age old ,“the search engines will ban your sites if you use Black Hat techniques”. Sure, this is true if you have no understanding of the basic principals or practices. If you jump in with no knowledge you are going to fail. I’ll give you the secret though. Ready? Don’t use black hat techniques on your White Hat domains. Not directly at least. You aren’t going to build doorway or cloaked pages on your money site, that would be idiotic. Instead you buy several throw away domains, build your doorways on those and cloak/redirect the traffic to your money sites. You lose a doorway domain, who cares? Build 10 to replace it. It isn’t rocket science, just common sense. A search engine can’t possibly penalize you for outside influences that are beyond your control. They can’t penalize you for incoming links, nor can they penalize you for sending traffic to your domain from other doorway pages outside of that domain. If they could, I would simply point doorway pages and spam links at my competitors to knock them out of the SERPS. See….. Common sense.
So again, Black Hat SEO Tricks 2018? In my opinion, Black Hat SEO Tricks 2018 and White Hat SEO are almost no different. White hat web masters spend time carefully finding link partners to increase rankings for their keywords, Black Hats do the same thing, but we write automated scripts to do it while we sleep. White hat SEO’s spend months perfecting the on page SEOof their sites for maximum rankings, black hat SEO’s use content generators to spit out thousands of generated pages to see which version works best. Are you starting to see a pattern here? You should, Black Hat SEO Tricks 2018 and White Hat SEO are one in the same with one key difference. Black Hats are lazy. We like things automated. Have you ever heard the phrase “Work smarter not harder?” We live by those words. Why spend weeks or months building pages only to have Google slap them down with some obscure penalty. If you have spent any time on web master forums you have heard that story time and time again. A web master plays by the rules, does nothing outwardly wrong or evil, yet their site is completely gone from the SERPS (Search Engine Results Pages) one morning for no apparent  reason. It’s frustrating, we’ve all been there. Months of work gone and nothing to show for it. I got tired of it as I am sure you are. That’s when it came to me. Who elected the search engines  the “internet police”? I certainly didn’t, so why play by their rules? In the following pages I’m going to show you why the search engines rules make no sense, and further I’m going to discuss how you can use that information to your advantage.Black Hat SEO Tricks 2018 is explained in details also in below bar
Search Engine 101 for Black Hat SEO Tricks 2018
As we discussed earlier, every good Black Hat must be a solid White Hat. So, lets start with the fundamentals. This section is going to get technical as we discuss how search engines work and delve into ways to exploit those inner workings. Lets get started, shall we?
Search engines match queries against an index that they create. The index consists of the words in each document, plus pointers to their locations within the documents. This is called an inverted file. A search engine or IR (Information Retrieval) system comprises four essential modules:
A document processor
A query processor
A search and matching function
A ranking capability
While users focus on “search,” the search and matching function is only one of the four modules. Each of these four modules may cause the expected or unexpected results that consumers get when they use a search engine.

Document Processor

 
The document processor prepares, processes, and inputs the documents, pages, or sites that users search against. The document processor performs some or all of the following steps: Normalizes the document stream to a predefined format.
Breaks the document stream into desired retrievable units.
Isolates and meta tags sub document pieces.
Identifies potential indexable elements in documents.
Deletes stop words.
Stems terms.
Extracts index entries.
Computes weights.
Creates and updates the main inverted file against which the search engine searches in order to match queries to documents.
Step 4: Identify elements to index 
Identifying potential indexable elements in documents dramatically affects the nature and quality of the document representation that the engine will search against. In designing the system, we must define the word “term.” Is it the alpha-numeric characters between blank spaces or punctuation? If so, what about non-compositional phrases (phrases in which the separate words do not convey the meaning of the phrase, like “skunk works” or “hot dog”), multi-word proper names, or inter-word symbols such as hyphens or apostrophes that can denote the difference between “small business men” versus small-business men.” Each search engine depends on a set of rules that its document processor must execute to determine what action is to be taken by the “tokenizer,” i.e. the software used to define a term suitable for indexing.
Step 5: Deleting stop words
 This step helps save system resources by eliminating from further processing, as well as potential matching, those terms that have little value in finding useful documents in response to a customer’s query. This step used to matter much more than it does now when memory has become so much cheaper and systems so much faster, but since stop words may comprise up to 40 percent of text words in a document, it still has some significance. A stop word list typically consists of those word classes known to convey little substantive meaning, such as articles (a, the), conjunctions (and, but), interjections (oh, but), prepositions (in, over), pronouns (he, it), and forms of the “to be” verb (is, are). To delete stop words, an algorithm compares index term candidates in the documents against a stop word list and eliminates certain terms from inclusion in the index for searching.
Step 6: Term Stemming
Stemming removes word suffixes, perhaps recursively in layer after layer of processing. The process has two goals. In terms of efficiency, stemming reduces the number of unique words in the index, which in turn reduces the storage space required for the index and speeds up the search process. In terms of effectiveness, stemming improves recall by reducing all forms of the word to a base or stemmed form. For example, if a user asks for analyze, they may also want documents which contain analysis, analyzing, analyzer, analyzes, and analyzed. Therefore, the document processor stems document terms to analy- so that documents which include various forms of analy- will have equal likelihood of being retrieved; this would not occur if the engine only indexed variant forms separately and required the user to enter all. Of course, stemming does have a downside. It may negatively affect precision in that all forms of a stem will match, when, in fact, a successful query for the user would have come from matching only the word form actually used in the query.
Systems may implement either a strong stemming algorithm or a weak stemming algorithm. A strong stemming algorithm will strip off both inflectional suffixes (-s, -es, -ed) and derivational suffixes (-able, aciousness, -ability), while a weak stemming algorithm will strip off only the inflectional suffixes (-s, es, -ed).
Step 7: Extract index entries 
Having completed steps 1 through 6, the document processor extracts the remaining entries from the original document. For example, the following paragraph shows the full text sent to a search engine for processing:
Milosevic’s comments, carried by the official news agency Tanjug, cast doubt over the governments at the talks, which the international community has called to try to prevent an all-out war in the Serbian province. “President Milosevic said it was well known that Serbia and Yugoslavia were firmly committed to resolving problems in Kosovo, which is an integral part of Serbia, peacefully in Serbia with the participation of the representatives of all ethnic communities,” Tanjug said. Milosevic was speaking during a meeting with British Foreign Secretary Robin Cook, who delivered an ultimatum to attend negotiations in a week’s time on an autonomy proposal for Kosovo with ethnic Albanian leaders from the province. Cook earlier told a conference that Milosevic had agreed to study the proposal.
Steps 1 to 6 reduce this text for searching to the following:
 
Milosevic comm carri offic new agen Tanjug cast doubt govern talk interna commun call try prevent all-out war Serb province President Milosevic said well known Serbia Yugoslavia firm commit resolv problem Kosovo integr part Serbia peace Serbia particip representa ethnic commun Tanjug said Milosevic speak meeti British Foreign Secretary Robin Cook deliver ultimat attend negoti week time autonomy propos Kosovo ethnic Alban lead province Cook earl told conference Milosevic agree study propos.
The output of step 7 is then inserted and stored in an inverted file that lists the index entries and an indication of their position and frequency of occurrence. The specific nature of the index entries, however, will vary based on the decision in Step 4 concerning what constitutes an “indexable term.” More sophisticated document processors will have phrase recognizers, as well as Named Entity recognizers and Categorizers, to insure index entries such as Milosevic are tagged as a Person and entries such as Yugoslavia and Serbia as Countries.
Step 8: Term weight assignment 
Weights are assigned to terms in the index file. The simplest of search engines just assign a binary weight: 1 for presence and 0 for absence. The more sophisticated the search engine, the more complex the weighting scheme. Measuring the frequency of occurrence of a term in the document creates more sophisticated weighting, with length-normalization of frequencies still more sophisticated. Extensive experience in information retrieval research over many years has clearly demonstrated that the optimal weighting comes from use of “tf/idf.” This algorithm measures the frequency of occurrence of each term within a document. Then it compares that frequency against the frequency of occurrence in the entire database.
Not all terms are good “discriminators” — that is, all terms do not single out one document from another very well. A simple example would be the word “the.” This word appears in too many documents to help distinguish one from another. A less obvious example would be the word
“antibiotic.” In a sports database when we compare each document to the database as a whole, the term “antibiotic” would probably be a good discriminator among documents, and therefore would be assigned a high weight. Conversely, in a database devoted to health or medicine, “antibiotic” would probably be a poor discriminator, since it occurs very often. The TF/IDF weighting scheme assigns higher weights to those terms that really distinguish one document from the others.

 

Query Processor for Black Hat SEO Tricks 2018

 
Query processing has seven possible steps, though a system can cut these steps short and proceed to match the query to the inverted file at any of a number of places during the processing. Document processing shares many steps with query processing. More steps and more documents make the process more expensive for processing in terms of computational resources and responsiveness. However, the longer the wait for results, the higher the quality of results. Thus, search system designers must choose what is most important to their users — time or quality. Publicly available search engines usually choose time over very high quality, having too many documents to search against.
The steps in query processing are as follows (with the option to stop processing and start matching indicated as “Matcher”):
Tokenize query terms.
Recognize query terms vs. special operators.
————————> Matcher
Delete stop words.
Stem words.
Create query representation.
————————> Matcher
Expand query terms.
Compute weights.
 — — — — — — — –> Matcher
Step 1: Tokenizing 
As soon as a user inputs a query, the search engine  — whether a keyword-based system or a full natural language processing (NLP) system  — must tokenize the query stream, i.e., break it down into understandable segments. Usually a token is defined as an alpha-numeric string that occurs between white space and/or punctuation.
Step 2: Parsing 
 
Since users may employ special operators in their query, including Boolean, adjacency, or proximity operators, the system needs to parse the query first into query terms and operators. These operators may occur in the form of reserved punctuation (e.g., quotation marks) or reserved terms in specialized format (e.g., AND, OR). In the case of an NLP system, the query processor will recognize the operators implicitly in the language used no matter how the operators might be expressed (e.g., prepositions, conjunctions, ordering).
At this point, a search engine may take the list of query terms and search them against the inverted file. In fact, this is the point at which the majority of publicly available search engines perform the search.
Steps 3 and 4: Stop list and stemming 
Some search engines will go further and stop-list and stem the query, similar to the processes described above in the Document Processor section. The stop list might also contain words from commonly occurring querying phrases, such as, “I’d like information about.” However, since most publicly available search engines encourage very short queries, as evidenced in the size of query window provided, the engines may drop these two steps.
Step 5: Creating the query 
How each particular search engine creates a query representation depends on how the system does its matching. If a statistically based matcher is used, then the query must match the statistical representations of the documents in the system. Good statistical queries should contain many synonyms and other terms in order to create a full representation. If a Boolean matcher is utilized, then the system must create logical sets of the terms connected by AND, OR, or NOT.
An NLP system will recognize single terms, phrases, and Named Entities. If it uses any Boolean logic, it will also recognize the logical operators from Step 2 and create a representation containing logical sets of the terms to be AND’d, OR’d, or NOT’d.
At this point, a search engine may take the query representation and perform the search against the inverted file. More advanced search engines may take two further steps.
Step 6: Query expansion 
Since users of search engines usually include only a single statement of their information needs in a query, it becomes highly probable that the information they need may be expressed using synonyms, rather than the exact query terms, in the documents which the search engine searches against. Therefore, more sophisticated systems may expand the query into all possible synonymous terms and perhaps even broader and narrower terms.
This process approaches what search intermediaries did for end users in the earlier days of commercial search systems. Back then, intermediaries might have used the same controlled vocabulary or thesaurus used by the indexers who assigned subject descriptors to documents. Today, resources such as WordNet are generally available, or specialized expansion facilities may take the initial query and enlarge it by adding associated vocabulary.
Step 7: Query term weighting (assuming more than one query term)
The final step in query processing involves computing weights for the terms in the query. Sometimes the user controls this step by indicating either how much to weight each term or simply which term or concept in the query matters most and must appear in each retrieved document to ensure relevance.
Leaving the weighting up to the user is not common, because research has shown that users are not particularly good at determining the relative importance of terms in their queries. They can’t make this determination for several reasons. First, they don’t know what else exists in the database, and document terms are weighted by being compared to the database as a whole. Second, most users seek information about an unfamiliar subject, so they may not know the correct terminology.
Few search engines implement system-based query weighting, but some do an implicit weighting by treating the first term(s) in a query as having higher significance. The engines use this information to provide a list of documents/pages to the user.
After this final step, the expanded, weighted query is searched against the inverted file of documents.
Search and Matching Function of Black Hat SEO Tricks 2018
 
How systems carry out their search and matching functions differs according to which theoretical model of information retrieval underlies the system’s design philosophy. Since making the distinctions between these models goes far beyond the goals of this article, we will only make some broad generalizations in the following description of the search and matching function.
Searching the inverted file for documents meeting the query requirements, referred to simply as “matching,” is typically a standard binary search, no matter whether the search ends after the first two, five, or all seven steps of query processing. While the computational processing required for simple, unweighted, non-Boolean query matching is far simpler than when the model is an NLP-based query within a weighted, Boolean model, it also follows that the simpler the document representation, the query representation, and the matching algorithm, the less relevant the results, except for very simple queries, such as one-word, non-ambiguous queries seeking the most generally known information.
Having determined which subset of documents or pages matches the query requirements to some degree, a similarity score is computed between the query and each document/page based on the scoring algorithm used by the system. Scoring algorithms rankings are based on the presence/absence of query term(s), term frequency, tf/idf, Boolean logic fulfillment, or query term weights. Some search engines use scoring algorithms not based on document contents, but rather, on relations among documents or past retrieval history of documents/pages.
After computing the similarity of each document in the subset of documents, the system presents an ordered list to the user. The sophistication of the ordering of the documents again depends on the model the system uses, as well as the richness of the document and query weighting mechanisms. For example, search engines that only require the presence of any alpha-numeric string from the query occurring anywhere, in any order, in a document would produce a very different ranking than one by a search engine that performed linguistically correct phrasing for both document and query representation and that utilized the proven tf/idf weighting scheme.
However the search engine determines rank, the ranked results list goes to the user, who can then simply click and follow the system’s internal pointers to the selected document/page.
More sophisticated systems will go even further at this stage and allow the user to provide some relevance feedback or to modify their query based on the results they have seen. If either of these are available, the system will then adjust its query representation to reflect this value-added feedback and re-run the search with the improved query to produce either a new set of documents or a simple reranking of documents from the initial search.
We have discussed how search engines work, but what features of a query make for good matches? Let’s look at the key features and consider some pros and cons of their utility in helping to retrieve a good representation of documents/pages.
Term frequency: How frequently a query term appears in a document is one of the most obvious ways of determining a document’s relevance to a query. While most often true, several situations can undermine this premise. First, many words have multiple meanings — they are polysemous. Think of words like “pool” or “fire.” Many of the non-relevant documents presented to users result from matching the right word, but with the wrong meaning.
Also, in a collection of documents in a particular domain, such as education, common query terms such as “education” or “teaching” are so common and occur so frequently that an engine’s ability to distinguish the relevant from the non-relevant in a collection declines sharply. Search engines that don’t use a tf/idf weighting algorithm do not appropriately down-weight the overly frequent terms, nor are higher weights assigned to appropriate distinguishing (and less frequently-occurring) terms, e.g., “earlychildhood.”
Location of terms: Many search engines give preference to words found in the title or lead paragraph or in the meta data of a document. Some studies show that the location — in which a term occurs in a document or on a page — indicates its significance to the document. Terms occurring in the title of a document or page that match a query term are therefore frequently weighted more heavily than terms occurring in the body of the document. Similarly, query terms occurring in section headings or the first paragraph of a document may be more likely to be relevant.
those referred to by many other pages, or have a high number of “in-links”
Popularity: Google and several other search engines add popularity to link analysis to help determine the relevance or value of pages. Popularity utilizes data on the frequency with which a page is chosen by all users as a means of predicting relevance. While popularity is a good indicator at times, it assumes that the underlying information need remains the same.
Date of Publication: Some search engines assume that the more recent the information is, the more likely that it will be useful or relevant to the user. The engines therefore present results beginning with the most recent to the less current.
Length: While length per se does not necessarily predict relevance, it is a factor when used to compute the relative merit of similar pages. So, in a choice between two documents both containing the same query terms, the document that contains a proportionately higher occurrence of the term relative to the length of the document is assumed more likely to be relevant.
Proximity of query terms: When the terms in a query occur near to each other within a document, it is more likely that the document is relevant to the query than if the terms occur at greater distance. While some search engines do not recognize phrases per se in queries, some search engines clearly rank documents in results higher if the query terms occur adjacent to one another or in closer proximity, as compared to documents in which the terms occur at a distance.
Proper nouns sometimes have higher weights, since so many searches are performed on people, places, or things. While this may be useful, if the search engine assumes that you are searching for a name instead of the same word as a normal everyday term, then the search results may be peculiarly skewed. Imagine getting information on “Madonna,” the rock star, when you were looking for pictures of Madonnas for an art history class.
Summary of Black Hat SEO Tricks 2018
Now that we have covered how a search engine works, we can discuss methods to take advantage of them. Lets start with content. As you saw in the above pages, search engines are simple test parsers. They take a series of words and try to reduce them to their core meaning. They can’t understand text, nor do they have the capability of discerning between grammatically correct text and complete gibberish. This of course will change over time as search engines evolve and the cost of hardware falls, but we black hats will evolve as well always aiming to stay at least one step ahead. Lets discuss the basics of generating content as well as some software used to do so, but first, we need to understand duplicate content. A widely passed around myth on web master forums is that duplicate content is viewed by search engines as a percentage. As long as you stay below the threshold, you pass by penalty free. It’s a nice thought, it’s just too bad that it is completely wrong.
Duplicate Content
I’ve read seemingly hundreds of forum posts discussing duplicate content, none of which gave the full picture, leaving me with more questions than answers. I decided to spend some time doing research to find out exactly what goes on behind the scenes. Here is what I have discovered.
Most people are under the assumption that duplicate content is looked at on the page level when in fact it is far more complex than that. Simply saying that “by changing 25 percent of the text on a page it is no longer duplicate content” is not a true or accurate statement. Lets examine why that is.
To gain some understanding we need to take a look at the k-shingle algorithm that may or may not be in use by the major search engines (my money is that it is in use). I’ve seen the following used as an example so lets use it here as well.
Let’s suppose that you have a page that contains the following text:
The swift brown fox jumped over the lazy dog.
Before we get to this point the search engine has already stripped all tags and HTML from the page leaving just this plain text behind for us to take a look at.
The shingling algorithm essentially finds word groups within a body of text in order to determine the uniqueness of the text. The first thing they do is strip out all stop words like and, the, of, to. They also strip out all fill words, leaving us only with action words which are considered the core of the content. Once this is done the following “shingles” are created from the above text. (I’m going to include the stop words for simplicity)
The swift brown fox swift brown fox jumped brown fox jumped over fox jumped over the jumped over the lazy over the lazy dog
These are essentially like unique fingerprints that identify this block of text. The search engine can now compare this “fingerprint” to other pages in an attempt to find duplicate content. As duplicates are found a “duplicate content” score is assigned to the page. If too many “fingerprints” match other documents the score becomes high enough that the search engines flag the page as duplicate content thus sending it to supplemental hell or worse deleting it from their index completely.
 My old lady swears that she saw the lazy dog jump over the swift brown fox.
The above gives us the following shingles:
my old lady swears old lady swears that lady swears that she swears that she saw that she saw the she saw the lazy saw the lazy dog the lazy dog jump lazy dog jump over dog jump over the jump over the swift over the swift brown the swift brown fox
Comparing these two sets of shingles we can see that only one matches (”the swift brown fox“). Thus it is unlikely that these two documents are duplicates of one another. No one but Google knows what the percentage match must be for these two documents to be considered duplicates, but some thorough testing would sure narrow it down ;).
So what can we take away from the above examples? First and foremost we quickly begin to realize that duplicate content is far more difficult than saying “document A and document B are 50 percent similar”. Second we can see that people adding “stop words” and “filler words” to avoid duplicate content are largely wasting their time. It’s the “action” words that should be the focus. Changing action words without altering the meaning of a body of text may very well be enough to get past these algorithms. Then again there may be other mechanisms at work that we can’t yet see rendering that impossible as well. I suggest experimenting and finding what works for you in your situation.
The last paragraph here is the real important part when generating content. You can’t simply add generic stop words here and there and expect to fool anyone. Remember, we’re dealing with a computer algorithm here, not some supernatural power. Everything you do should be from the standpoint of a scientist. Think through every decision using logic and reasoning. There is no magic involved in SEO, just raw data and numbers. Always split test and perform controlled experiments.

What Makes A Good Content Generator?

Now we understand how a search engine parses documents on the web,  we also understand the intricacies of duplicate content and what it takes to avoid it. Now it is  time to check out some basic content generation techniques.
One of the more commonly used text spinners is known as Markov. Markov isn’t actually intended for content generation, it’s actually something called a Markov Chain which was developed by mathematician Andrey Markov. The algorithm takes each word in a body of content and changes the order based on the algorithm. This produces largely unique text, but it’s also typically VERY unreadable. The quality of the output really depends on the quality of the input. The other issue with Markov is the fact that it will likely never pass a human review for readability. If you don’t shuffle the Markov chains enough you also run into duplicate content issues because of the nature of shingling as discussed earlier.  Some people may be able to get around this by replacing words in the content with synonyms.  I personally stopped using Markov back in 2006 or 2007 after developing my own proprietary content engine. Some popular software that uses Markov chains include  RSSGMand YAGC both of which are pretty old and outdated at this point. They are worth taking a look at just to understand the fundamentals, but there are FAR better packages out there.
So, we’ve talked about the old methods of doing things, but this isn’t 1999, you can’t fool the search engines by simply repeating a keyword over and over in the body of your pages (I wish it were still that easy).  So what works today?  Now and in the future, LSI is becoming more and more important. LSI stands for Latent Semantic Indexing. It sounds complicated, but it really isn’t. LSI is basically just a process by which a search engine can infer the meaning of a page based on the content of that page. For example, lets say they index a page and find words like atomic bomb, Manhattan Project, Germany, and Theory of Relativity. The idea is that the search engine can process those words, find relational data and determine that the page is about Albert Einstein. So, ranking for a keyword phrase is no longer as simple as having content that talks about and repeats the target keyword phrase over and over like the good old days. Now we need to make sure we have other key phrases that the search engine thinks are related to the main key phrase.
So if Markov is easy to detect and LSI is starting to become more important, which software works, and which doesn’t?

Software for Black Hat SEO Tricks 2018

Fantomaster Shadowmaker: This is probably one of the oldest and most commonly known high end cloaking packages being sold. It’s also one of the most out of date. For $3,000.00 you basically get a clunky outdated interface for slowly building  HTML pages. I know, I’m being harsh, but I was really let down by this software. The content engine doesn’t do anything to address LSI. It simply splices unrelated sentences together from random sources while tossing in your keyword randomly. Unless things change drastically I would avoid this one.
SEC (Search Engine Cloaker): as Black Hat SEO Tricks 2018
Another well known paid script. This one is of good quality and with work does provide results. The content engine is mostly manual making you build sentences which are then mixed together for your content. If you understand SEO and have the time to dedicate to creating the content, the pages built last a long time. I do have two complaints. The software is SLOW. It takes days just to setup a few decent pages. That in itself isn’t very black hat. Remember, we’re lazy! The other gripe is the ip cloaking. Their ip list is terribly out of date only containing a couple thousand ip’s as of this writing.
SSEC or Simplified Search Engine Content: This is one of the best IP delivery systems on the market. Their ip list is updated daily and contains close to 30,000 ip’s. The member only forums are the best in the industry. The subscription is worth it just for the information contained there. The content engine is also top notch. It’s flexible, so you can chose to use their proprietary scraped content system which automatically scrapes search engines for your content, or you can use custom content similar in fashion to SEC above, but faster. You can also mix and match the content sources giving you the ultimate in control. This is the only software as of this writing that takes LSI into account directly from within the content engine.  This is also the fastest page builder I have come across. You can easily put together several thousand sites each with hundreds of pages of content in just a few hours. Support is top notch, and the knowledgeable staff really knows what they are talking about. This one gets a gold star from me.
BlogSolutionBlack Hat SEO Tricks 2018
Sold as an automated blog builder, BlogSolution falls short in almost every important area. The blogs created are not wordpress blogs, but rather a proprietary blog software specifically written for BlogSolution. This “feature” means your blogs stand out like a sore thumb in the eyes of the search engines. They don’t blend in at all leaving footprints all over the place. The licensing limits you to 100 blogs which basically means you can’t build enough to make any decent amount of money. The content engine is a joke as well using rss feeds and leaving you with a bunch of easy to detect duplicate content blogs that rank for nothing.
Blog Cloaker:
Another solid offering from the guys that developed SSEC. This is the natural evolution of that software. This mass site builder is based around wordpress blogs. This software is the best in the industry hands down. The interface has the feel of a system developed by real professionals. You have the same content options seen in SSEC, but with several different redirection types including header redirection, JavaScript, meta refresh, and even iframe. This again is an ip cloaking solution with the same industry leading ip list as SSEC. The monthly subscription may seem daunting at first, but the price of admission is worth every penny if you are serious about making money in this industry. It literally does not get any better than this.
Cloaking in Black Hat SEO Tricks 2018
So what is cloaking? Cloaking is simply showing different content to different people based on different criteria. Cloaking automatically gets a bad reputation, but that is based mostly on ignorance of how it works. There are many legitimate reasons to Cloak pages. In fact, even Google cloaks. Have you ever visited a web site with your cell phone and been automatically directed to the mobile version of the site? Guess what, that’s cloaking. How about web pages that automatically show you information based on your location? Guess what, that’s cloaking. So, based on that, we can break cloaking down into two main categories, user agent cloaking and ip based cloaking.
User Agent cloaking is simply a method of showing different pages or different content to visitors based on the user agent string they visit the site with. A user agent is simply an identifier that every web browser and search engine spider sends to a web server when they connect to a page. Above we used the example of a mobile phone. A Nokia cell phone for example will have a user agent similar to:  UserAgent: Mozilla/5.0 (SymbianOS/9.1; U; [en]; Series60/3.0 NokiaE60/4.06.0) AppleWebKit/413 ( KHTML, like Gecko) Safari/ 413
Knowing this, we can tell the difference between a mobile phone visiting our page and a regular visitor viewing our page with Internet Explorer or Firefox for example. We can then write a script that will show different information to those users based on their user agent.
Sounds good, doesn’t it? Well, it works for basic things like mobile and non mobile versions of pages, but it’s also very easy to detect, fool, and circumvent. Firefox for example has a handy plug-in that allows you to change your user agent string to anything you want. Using that plug-in I can make the script think that I am a Google search engine bot, thus rendering your cloaking completely useless. So, what else can we do if user agents are so easy to spoof?
IP Cloaking as Black Hat SEO Tricks 2018
Every visitor to your web site must first establish a connection with an ip address. These ip addresses resolve to dns servers which in turn identify the origin of that visitor. Every search engine crawler must identify itself with a unique signature viewable by reverse dns lookup. This means we have a sure fire method for identifying and cloaking based on ip address. This also means that we don’t rely on the user agent at all, so there is no way to circumvent ip based cloaking (although some caution must be taken as we will discuss). The most difficult part of ip cloaking is compiling a list of known search engine ip’s. Luckily software like Blog Cloaker and SSEC already does this for us. Once we have that information, we can then show different pages to different users based on the ip they visit our page with. For example, I can show a search engine bot a keyword targeted page full of key phrases related to what I want to rank for. When a human visits that same page I can show an ad, or an affiliate product so I can make some money. See the power and potential here?
So how can we detect ip cloaking? Every major search engine maintains a cache of the pages it indexes. This cache is going to contain the page as the search engine bot saw it at indexing time. This means your competition can view your cloaked page by clicking on the cache in the SERPS. That’s ok, it’s easy to get around that. The use of the meta tag noarchive in your pages forces the search engines to show no cached copy of your page in the search results, so you avoid snooping web masters. The only other method of detection involves ip spoofing, but that is a very difficult and time consuming thing to pull of. Basically you configure a computer to act as if it is using one of Google’s ip’s when it visits a page. This would allow you to connect as though you were a search engine bot, but the problem here is that the data for the page would be sent to the ip you are spoofing which isn’t on your computer, so you are still out of luck.
The lesson here? If you are serious about this, use ip cloaking. It is very difficult to detect and by far the most solid option.
Link Building for Black Hat SEO Tricks 2018
As we discussed earlier, Black Hats are Basically White Hats, only lazy! As  we build pages, we also need links to get those pages to rank. Lets discuss some common and not so common methods for doing so.
Blog ping: This one is quite old, but still widely used. Blog indexing services setup a protocol in which a web site can send a ping whenever new pages are added to a blog. They can then send over a bot that grabs the page content for indexing and searching,  or simply to add as a link in their blog directory. Black Hats exploit this by writing scripts that send out massive numbers of pings to various services in order to entice bots to crawl their pages. This method certainly drives the bots, but in the last couple years it has lost most of its power as far as getting pages to rank.
Trackback: Another method of communication used by blogs, trackbacks are basically a method in which one blog can tell another blog that it has posted something related to or in response to an existing blog post. As a black hat, we see that as an opportunity to inject links to thousands of our own pages by automating the process and sending out trackbacks to as many blogs as we can. Most blogs these days have software in place that greatly limits or even eliminates trackback spam, but it’s still a viable tool.
EDU links: A couple years ago Black Hats noticed an odd trend. Universities and government agencies with very high ranking web sites often times have very old message boards they have long forgotten about, but that still have public access. We took advantage of that by posting millions of links to our pages on these abandoned sites. This gave a HUGE boost to rankings and made some very lucky Viagra spammers millions of dollars. The effectiveness of this approach has diminished over time.
Forums and Guest books: The internet contains millions of forums and guest books all ripe for the picking. While most forums are heavily moderated (at least the active ones), that still leaves you with thousands in which you can drop links where no one will likely notice or even care. We’re talking about abandoned forums, old guest books, etc. Now, you can get links dropped on active forums as well, but it takes some more creativity. Putting up a post related to the topic on the forum and dropping your link In the BB code for a smiley for example. Software packages like Xrumer made this a VERY popular way to gather back links. So much so that most forums have methods in place to detect and reject these types of links. Some people still use them and are still successful.
Link Networks:  Also known as link farms, these have been popular for years. Most are very simplistic in nature. Page A links to page B, page B links to page C, then back to A. These are pretty easy to detect because of the limited range of ip’s involved. It doesn’t take much processing to figure out that there are only a few people involved with all of the links. So, the key here is to have a very diverse pool of links. Take a look at Link Exchange for example. They have over 300 servers all over the world with thousands of ip’s, so it would be almost impossible to detect. A search engine would have to discount links completely in order to filter these links out.

Money Making Strategies with Black Hat SEO Tricks 2018

We now have a solid understanding of cloaking, how a search engine works, content generation, software to avoid, software that is pure gold and even link building strategies. So how do you pull all of it together to make some money?
he traffic you send it. You load up your money keyword list, setup a template with your ads or offers, then send all of your doorway/cloaked traffic to the index page. The Landing Page Builder shows the best possible page with ads based on what the incoming user searched for. Couldn’t be easier, and it automates the difficult tasks we all hate.

 

Affiliate Marketing Black Hat SEO Tricks 2018 : We all know what an affiliate program is. There are literally tens of thousands of affiliate programs with millions of products to sell. The most difficult part of affiliate marketing is getting well qualified targeted traffic. That again is where good software and cloaking comes into play. Some networks and affiliates allow direct linking. Direct Linking is where you setup your cloaked pages with all of your product keywords, then redirect straight to the merchant or affiliates sales page. This often results in the highest conversion rates, but as I said, some affiliates don’t allow Direct Linking. So, again, that’s where Landing Pages come in. Either building your own (which we are far too lazy to do), or by using something like Landing Page Builder which automates everything for us. Landing pages give us a place to send and clean our traffic, they also prequalify the buyer and make sure the quality of the traffic sent to the affiliate is as high as possible. After all, we want to make money, but we also want to keep a strong relationship with the affiliate so we can get paid.

 

See My Previous Posts

 

1.On Page SEO ( Advanced ) – Rank 1 On GOOGLE

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